chore: run format to resolve CI issues

- Normalize all tags' data when creating _rawTaggedData in readJSON
- Add support for handling malformed dotted subtask IDs (e.g., "5.1" -> 1)
- Remove redundant normalizeTaskIds calls from set-task-status, add-task, and move-task
- Add comprehensive test for mixed ID formats (string IDs and dotted notation)
- Cleaner, more maintainable solution that normalizes IDs at load time

🤖 Generated with [Claude Code](https://claude.ai/code)

Co-Authored-By: Claude <noreply@anthropic.com>

.changeset/config.json

@@ -2,16 +2,13 @@
   "$schema": "https://unpkg.com/@changesets/config@3.1.1/schema.json",
   "changelog": [
     "@changesets/changelog-github",
-    {
-      "repo": "eyaltoledano/claude-task-master"
-    }
+    { "repo": "eyaltoledano/claude-task-master" }
   ],
   "commit": false,
   "fixed": [],
+  "linked": [],
   "access": "public",
   "baseBranch": "main",
-  "ignore": [
-    "docs",
-    "@tm/claude-code-plugin"
-  ]
+  "updateInternalDependencies": "patch",
+  "ignore": []
 }

.changeset/dirty-hairs-know.md

@@ -1,5 +0,0 @@
----
-"task-master-ai": patch
----
-
-Improve auth token refresh flow

.changeset/eleven-horses-shop.md

@@ -0,0 +1,5 @@
+---
+"task-master-ai": patch
+---
+
+Fix for tasks not found when using string IDs

.changeset/fix-parent-directory-traversal.md

@@ -1,7 +0,0 @@
----
-"task-master-ai": patch
----
-
-Enable Task Master commands to traverse parent directories to find project root from nested paths
-
-Fixes #1301

.changeset/fix-tag-complexity-detection.md

@@ -0,0 +1,7 @@
+---
+"task-master-ai": patch
+---
+
+Fix tag-specific complexity report detection in expand command
+
+The expand command now correctly finds and uses tag-specific complexity reports (e.g., `task-complexity-report_feature-xyz.json`) when operating in a tag context. Previously, it would always look for the generic `task-complexity-report.json` file due to a default value in the CLI option definition.

.changeset/fix-warning-box-alignment.md

@@ -1,5 +0,0 @@
----
-"@tm/cli": patch
----
-
-Fix warning message box width to match dashboard box width for consistent UI alignment

.changeset/light-owls-stay.md

@@ -1,35 +0,0 @@
----
-"task-master-ai": minor
----
-
-Add configurable MCP tool loading to optimize LLM context usage
-
-You can now control which Task Master MCP tools are loaded by setting the `TASK_MASTER_TOOLS` environment variable in your MCP configuration. This helps reduce context usage for LLMs by only loading the tools you need.
-
-**Configuration Options:**
-
-- `all` (default): Load all 36 tools
-- `core` or `lean`: Load only 7 essential tools for daily development
-  - Includes: `get_tasks`, `next_task`, `get_task`, `set_task_status`, `update_subtask`, `parse_prd`, `expand_task`
-- `standard`: Load 15 commonly used tools (all core tools plus 8 more)
-  - Additional tools: `initialize_project`, `analyze_project_complexity`, `expand_all`, `add_subtask`, `remove_task`, `generate`, `add_task`, `complexity_report`
-- Custom list: Comma-separated tool names (e.g., `get_tasks,next_task,set_task_status`)
-
-**Example .mcp.json configuration:**
-
-```json
-{
-  "mcpServers": {
-    "task-master-ai": {
-      "command": "npx",
-      "args": ["-y", "task-master-ai"],
-      "env": {
-        "TASK_MASTER_TOOLS": "standard",
-        "ANTHROPIC_API_KEY": "your_key_here"
-      }
-    }
-  }
-}
-```
-
-For complete details on all available tools, configuration examples, and usage guidelines, see the [MCP Tools documentation](https://docs.task-master.dev/capabilities/mcp#configurable-tool-loading).

.changeset/metal-rocks-help.md

@@ -1,5 +0,0 @@
----
-"task-master-ai": minor
----
-
-Improve next command to work with remote

.claude-plugin/marketplace.json

@@ -1,32 +0,0 @@
-{
-	"name": "taskmaster",
-	"owner": {
-		"name": "Hamster",
-		"email": "ralph@tryhamster.com"
-	},
-	"metadata": {
-		"description": "Official marketplace for Taskmaster AI - AI-powered task management for ambitious development",
-		"version": "1.0.0"
-	},
-	"plugins": [
-		{
-			"name": "taskmaster",
-			"source": "./packages/claude-code-plugin",
-			"description": "AI-powered task management system for ambitious development workflows with intelligent orchestration, complexity analysis, and automated coordination",
-			"author": {
-				"name": "Hamster"
-			},
-			"homepage": "https://github.com/eyaltoledano/claude-task-master",
-			"repository": "https://github.com/eyaltoledano/claude-task-master",
-			"keywords": [
-				"task-management",
-				"ai",
-				"workflow",
-				"orchestration",
-				"automation",
-				"mcp"
-			],
-			"category": "productivity"
-		}
-	]
-}

.claude/commands/dedupe.md

@@ -1,38 +0,0 @@
----
-allowed-tools: Bash(gh issue view:*), Bash(gh search:*), Bash(gh issue list:*), Bash(gh api:*), Bash(gh issue comment:*)
-description: Find duplicate GitHub issues
----
-
-Find up to 3 likely duplicate issues for a given GitHub issue.
-
-To do this, follow these steps precisely:
-
-1. Use an agent to check if the Github issue (a) is closed, (b) does not need to be deduped (eg. because it is broad product feedback without a specific solution, or positive feedback), or (c) already has a duplicates comment that you made earlier. If so, do not proceed.
-2. Use an agent to view a Github issue, and ask the agent to return a summary of the issue
-3. Then, launch 5 parallel agents to search Github for duplicates of this issue, using diverse keywords and search approaches, using the summary from #1
-4. Next, feed the results from #1 and #2 into another agent, so that it can filter out false positives, that are likely not actually duplicates of the original issue. If there are no duplicates remaining, do not proceed.
-5. Finally, comment back on the issue with a list of up to three duplicate issues (or zero, if there are no likely duplicates)
-
-Notes (be sure to tell this to your agents, too):
-
-- Use `gh` to interact with Github, rather than web fetch
-- Do not use other tools, beyond `gh` (eg. don't use other MCP servers, file edit, etc.)
-- Make a todo list first
-- For your comment, follow the following format precisely (assuming for this example that you found 3 suspected duplicates):
-
----
-
-Found 3 possible duplicate issues:
-
-1. <link to issue>
-2. <link to issue>
-3. <link to issue>
-
-This issue will be automatically closed as a duplicate in 3 days.
-
-- If your issue is a duplicate, please close it and 👍 the existing issue instead
-- To prevent auto-closure, add a comment or 👎 this comment
-
-🤖 Generated with \[Task Master Bot\]
-
----

.claude/commands/tm/add-dependency/add-dependency.md

@@ -48,7 +48,7 @@ After adding dependency:
 ## Example Flows
 
 ```
-/taskmaster:add-dependency 5 needs 3
+/project:tm/add-dependency 5 needs 3
 → Task #5 now depends on Task #3
 → Task #5 is now blocked until #3 completes
 → Suggested: Also consider if #5 needs #4

.claude/commands/tm/add-subtask/add-subtask.md

@@ -56,12 +56,12 @@ task-master add-subtask --parent=<id> --task-id=<existing-id>
 ## Example Flows
 
 ```
-/taskmaster:add-subtask to 5: implement user authentication
+/project:tm/add-subtask to 5: implement user authentication
 → Created subtask #5.1: "implement user authentication"
 → Parent task #5 now has 1 subtask
 → Suggested next subtasks: tests, documentation
 
-/taskmaster:add-subtask 5: setup, implement, test
+/project:tm/add-subtask 5: setup, implement, test
 → Created 3 subtasks:
   #5.1: setup
   #5.2: implement  

.claude/commands/tm/add-subtask/convert-task-to-subtask.md

@@ -53,7 +53,7 @@ task-master add-subtask --parent=<parent-id> --task-id=<task-to-convert>
 ## Example
 
 ```
-/taskmaster:add-subtask/from-task 5 8
+/project:tm/add-subtask/from-task 5 8
 → Converting: Task #8 becomes subtask #5.1
 → Updated: 3 dependency references
 → Parent task #5 now has 1 subtask

.claude/commands/tm/analyze-complexity/analyze-complexity.md

@@ -115,7 +115,7 @@ Results are:
 
 After analysis:
 ```
-/taskmaster:expand 5    # Expand specific task
-/taskmaster:expand-all  # Expand all recommended
-/taskmaster:complexity-report  # View detailed report
+/project:tm/expand 5    # Expand specific task
+/project:tm/expand/all  # Expand all recommended
+/project:tm/complexity-report  # View detailed report
 ```

.claude/commands/tm/clear-subtasks/clear-subtasks.md

@@ -77,7 +77,7 @@ Suggest alternatives:
 ## Example
 
 ```
-/taskmaster:clear-subtasks 5
+/project:tm/clear-subtasks 5
 → Found 4 subtasks to remove
 → Warning: Subtask #5.2 is in-progress
 → Cleared all subtasks from task #5

.claude/commands/tm/complexity-report/complexity-report.md

@@ -105,13 +105,13 @@ Use report for:
 ## Example Usage
 
 ```
-/taskmaster:complexity-report
+/project:tm/complexity-report
 → Opens latest analysis
 
-/taskmaster:complexity-report --file=archived/2024-01-01.md
+/project:tm/complexity-report --file=archived/2024-01-01.md
 → View historical analysis
 
 After viewing:
-/taskmaster:expand 5
+/project:tm/expand 5
 → Expand high-complexity task
 ```

.claude/commands/tm/fix-dependencies/fix-dependencies.md

@@ -70,7 +70,7 @@ Manual Review Needed:
 ⚠️ Task #45 has 8 dependencies
   Suggestion: Break into subtasks
 
-Run '/taskmaster:validate-dependencies' to verify fixes
+Run '/project:tm/validate-dependencies' to verify fixes
 ```
 
 ## Safety

.claude/commands/tm/help.md

@@ -0,0 +1,81 @@
+Show help for Task Master commands.
+
+Arguments: $ARGUMENTS
+
+Display help for Task Master commands. If arguments provided, show specific command help.
+
+## Task Master Command Help
+
+### Quick Navigation
+
+Type `/project:tm/` and use tab completion to explore all commands.
+
+### Command Categories
+
+#### 🚀 Setup & Installation
+- `/project:tm/setup/install` - Comprehensive installation guide
+- `/project:tm/setup/quick-install` - One-line global install
+
+#### 📋 Project Setup
+- `/project:tm/init` - Initialize new project
+- `/project:tm/init/quick` - Quick setup with auto-confirm
+- `/project:tm/models` - View AI configuration
+- `/project:tm/models/setup` - Configure AI providers
+
+#### 🎯 Task Generation
+- `/project:tm/parse-prd` - Generate tasks from PRD
+- `/project:tm/parse-prd/with-research` - Enhanced parsing
+- `/project:tm/generate` - Create task files
+
+#### 📝 Task Management
+- `/project:tm/list` - List tasks (natural language filters)
+- `/project:tm/show <id>` - Display task details
+- `/project:tm/add-task` - Create new task
+- `/project:tm/update` - Update tasks naturally
+- `/project:tm/next` - Get next task recommendation
+
+#### 🔄 Status Management
+- `/project:tm/set-status/to-pending <id>`
+- `/project:tm/set-status/to-in-progress <id>`
+- `/project:tm/set-status/to-done <id>`
+- `/project:tm/set-status/to-review <id>`
+- `/project:tm/set-status/to-deferred <id>`
+- `/project:tm/set-status/to-cancelled <id>`
+
+#### 🔍 Analysis & Breakdown
+- `/project:tm/analyze-complexity` - Analyze task complexity
+- `/project:tm/expand <id>` - Break down complex task
+- `/project:tm/expand/all` - Expand all eligible tasks
+
+#### 🔗 Dependencies
+- `/project:tm/add-dependency` - Add task dependency
+- `/project:tm/remove-dependency` - Remove dependency
+- `/project:tm/validate-dependencies` - Check for issues
+
+#### 🤖 Workflows
+- `/project:tm/workflows/smart-flow` - Intelligent workflows
+- `/project:tm/workflows/pipeline` - Command chaining
+- `/project:tm/workflows/auto-implement` - Auto-implementation
+
+#### 📊 Utilities
+- `/project:tm/utils/analyze` - Project analysis
+- `/project:tm/status` - Project dashboard
+- `/project:tm/learn` - Interactive learning
+
+### Natural Language Examples
+
+```
+/project:tm/list pending high priority
+/project:tm/update mark all API tasks as done
+/project:tm/add-task create login system with OAuth
+/project:tm/show current
+```
+
+### Getting Started
+
+1. Install: `/project:tm/setup/quick-install`
+2. Initialize: `/project:tm/init/quick`
+3. Learn: `/project:tm/learn start`
+4. Work: `/project:tm/workflows/smart-flow`
+
+For detailed command info: `/project:tm/help <command-name>`

.claude/commands/tm/init/init-project-quick.md

@@ -30,17 +30,17 @@ task-master init -y
 After quick init:
 1. Configure AI models if needed:
    ```
-   /taskmaster:models/setup
+   /project:tm/models/setup
    ```
 
 2. Parse PRD if available:
    ```
-   /taskmaster:parse-prd <file>
+   /project:tm/parse-prd <file>
    ```
 
 3. Or create first task:
    ```
-   /taskmaster:add-task create initial setup
+   /project:tm/add-task create initial setup
    ```
 
 Perfect for rapid project setup!

.claude/commands/tm/init/init-project.md

@@ -45,6 +45,6 @@ After successful init:
 
 If PRD file provided:
 ```
-/taskmaster:init my-prd.md
+/project:tm/init my-prd.md
 → Automatically runs parse-prd after init
 ```

.claude/commands/tm/remove-dependency/remove-dependency.md

@@ -55,7 +55,7 @@ After removing:
 ## Example
 
 ```
-/taskmaster:remove-dependency 5 from 3
+/project:tm/remove-dependency 5 from 3
 → Removed: Task #5 no longer depends on #3
 → Task #5 is now UNBLOCKED and ready to start
 → Warning: Consider if #5 still needs #2 completed first

.claude/commands/tm/remove-subtask/remove-subtask.md

@@ -63,13 +63,13 @@ task-master remove-subtask --id=<parentId.subtaskId> --convert
 ## Example Flows
 
 ```
-/taskmaster:remove-subtask 5.1
+/project:tm/remove-subtask 5.1
 → Warning: Subtask #5.1 is in-progress
 → This will delete all subtask data
 → Parent task #5 will be updated
 Confirm deletion? (y/n)
 
-/taskmaster:remove-subtask 5.1 convert
+/project:tm/remove-subtask 5.1 convert
 → Converting subtask #5.1 to standalone task #89
 → Preserved: All task data and history
 → Updated: 2 dependency references

.claude/commands/tm/remove-task/remove-task.md

@@ -85,17 +85,17 @@ Suggest before deletion:
 ## Example Flows
 
 ```
-/taskmaster:remove-task 5
+/project:tm/remove-task 5
 → Task #5 is in-progress with 8 hours logged
 → 3 other tasks depend on this
 → Suggestion: Mark as cancelled instead?
 Remove anyway? (y/n)
 
-/taskmaster:remove-task 5 -y
+/project:tm/remove-task 5 -y
 → Removed: Task #5 and 4 subtasks
 → Updated: 3 task dependencies
 → Warning: Tasks #7, #8, #9 now have missing dependency
-→ Run /taskmaster:fix-dependencies to resolve
+→ Run /project:tm/fix-dependencies to resolve
 ```
 
 ## Safety Features

.claude/commands/tm/tm-main.md

@@ -8,11 +8,11 @@ Commands are organized hierarchically to match Task Master's CLI structure while
 
 ## Project Setup & Configuration
 
-### `/taskmaster:init`
+### `/project:tm/init`
 - `init-project` - Initialize new project (handles PRD files intelligently)
 - `init-project-quick` - Quick setup with auto-confirmation (-y flag)
 
-### `/taskmaster:models`
+### `/project:tm/models`
 - `view-models` - View current AI model configuration
 - `setup-models` - Interactive model configuration
 - `set-main` - Set primary generation model
@@ -21,21 +21,21 @@ Commands are organized hierarchically to match Task Master's CLI structure while
 
 ## Task Generation
 
-### `/taskmaster:parse-prd`
+### `/project:tm/parse-prd`
 - `parse-prd` - Generate tasks from PRD document
 - `parse-prd-with-research` - Enhanced parsing with research mode
 
-### `/taskmaster:generate`
+### `/project:tm/generate`
 - `generate-tasks` - Create individual task files from tasks.json
 
 ## Task Management
 
-### `/taskmaster:list`
+### `/project:tm/list`
 - `list-tasks` - Smart listing with natural language filters
 - `list-tasks-with-subtasks` - Include subtasks in hierarchical view
 - `list-tasks-by-status` - Filter by specific status
 
-### `/taskmaster:set-status`
+### `/project:tm/set-status`
 - `to-pending` - Reset task to pending
 - `to-in-progress` - Start working on task
 - `to-done` - Mark task complete
@@ -43,84 +43,84 @@ Commands are organized hierarchically to match Task Master's CLI structure while
 - `to-deferred` - Defer task
 - `to-cancelled` - Cancel task
 
-### `/taskmaster:sync-readme`
+### `/project:tm/sync-readme`
 - `sync-readme` - Export tasks to README.md with formatting
 
-### `/taskmaster:update`
+### `/project:tm/update`
 - `update-task` - Update tasks with natural language
 - `update-tasks-from-id` - Update multiple tasks from a starting point
 - `update-single-task` - Update specific task
 
-### `/taskmaster:add-task`
+### `/project:tm/add-task`
 - `add-task` - Add new task with AI assistance
 
-### `/taskmaster:remove-task`
+### `/project:tm/remove-task`
 - `remove-task` - Remove task with confirmation
 
 ## Subtask Management
 
-### `/taskmaster:add-subtask`
+### `/project:tm/add-subtask`
 - `add-subtask` - Add new subtask to parent
 - `convert-task-to-subtask` - Convert existing task to subtask
 
-### `/taskmaster:remove-subtask`
+### `/project:tm/remove-subtask`
 - `remove-subtask` - Remove subtask (with optional conversion)
 
-### `/taskmaster:clear-subtasks`
+### `/project:tm/clear-subtasks`
 - `clear-subtasks` - Clear subtasks from specific task
 - `clear-all-subtasks` - Clear all subtasks globally
 
 ## Task Analysis & Breakdown
 
-### `/taskmaster:analyze-complexity`
+### `/project:tm/analyze-complexity`
 - `analyze-complexity` - Analyze and generate expansion recommendations
 
-### `/taskmaster:complexity-report`
+### `/project:tm/complexity-report`
 - `complexity-report` - Display complexity analysis report
 
-### `/taskmaster:expand`
+### `/project:tm/expand`
 - `expand-task` - Break down specific task
 - `expand-all-tasks` - Expand all eligible tasks
 - `with-research` - Enhanced expansion
 
 ## Task Navigation
 
-### `/taskmaster:next`
+### `/project:tm/next`
 - `next-task` - Intelligent next task recommendation
 
-### `/taskmaster:show`
+### `/project:tm/show`
 - `show-task` - Display detailed task information
 
-### `/taskmaster:status`
+### `/project:tm/status`
 - `project-status` - Comprehensive project dashboard
 
 ## Dependency Management
 
-### `/taskmaster:add-dependency`
+### `/project:tm/add-dependency`
 - `add-dependency` - Add task dependency
 
-### `/taskmaster:remove-dependency`
+### `/project:tm/remove-dependency`
 - `remove-dependency` - Remove task dependency
 
-### `/taskmaster:validate-dependencies`
+### `/project:tm/validate-dependencies`
 - `validate-dependencies` - Check for dependency issues
 
-### `/taskmaster:fix-dependencies`
+### `/project:tm/fix-dependencies`
 - `fix-dependencies` - Automatically fix dependency problems
 
 ## Workflows & Automation
 
-### `/taskmaster:workflows`
+### `/project:tm/workflows`
 - `smart-workflow` - Context-aware intelligent workflow execution
 - `command-pipeline` - Chain multiple commands together
 - `auto-implement-tasks` - Advanced auto-implementation with code generation
 
 ## Utilities
 
-### `/taskmaster:utils`
+### `/project:tm/utils`
 - `analyze-project` - Deep project analysis and insights
 
-### `/taskmaster:setup`
+### `/project:tm/setup`
 - `install-taskmaster` - Comprehensive installation guide
 - `quick-install-taskmaster` - One-line global installation
 
@@ -129,17 +129,17 @@ Commands are organized hierarchically to match Task Master's CLI structure while
 ### Natural Language
 Most commands accept natural language arguments:
 ```
-/taskmaster:add-task create user authentication system
-/taskmaster:update mark all API tasks as high priority
-/taskmaster:list show blocked tasks
+/project:tm/add-task create user authentication system
+/project:tm/update mark all API tasks as high priority
+/project:tm/list show blocked tasks
 ```
 
 ### ID-Based Commands
 Commands requiring IDs intelligently parse from $ARGUMENTS:
 ```
-/taskmaster:show 45
-/taskmaster:expand 23
-/taskmaster:set-status/to-done 67
+/project:tm/show 45
+/project:tm/expand 23
+/project:tm/set-status/to-done 67
 ```
 
 ### Smart Defaults

.claude/commands/tm/update/update-single-task.md

@@ -66,7 +66,7 @@ The AI:
 ## Example Updates
 
 ```
-/taskmaster:update/single 5: add rate limiting
+/project:tm/update/single 5: add rate limiting
 → Updating Task #5: "Implement API endpoints"
 
 Current: Basic CRUD endpoints

.claude/commands/tm/update/update-tasks-from-id.md

@@ -77,7 +77,7 @@ AI analyzes the update context and:
 ## Example Updates
 
 ```
-/taskmaster:update/from-id 5: change database to PostgreSQL
+/project:tm/update/from-id 5: change database to PostgreSQL
 → Analyzing impact starting from task #5
 → Found 6 related tasks to update
 → Updates will maintain consistency

.claude/commands/tm/validate-dependencies/validate-dependencies.md

@@ -66,6 +66,6 @@ For each issue found:
 ## Next Steps
 
 After validation:
-- Run `/taskmaster:fix-dependencies` to auto-fix
+- Run `/project:tm/fix-dependencies` to auto-fix
 - Manually adjust problematic dependencies
 - Rerun to verify fixes

.cursor/mcp.json

@@ -2,7 +2,7 @@
 	"mcpServers": {
 		"task-master-ai": {
 			"command": "node",
-			"args": ["./dist/mcp-server.js"],
+			"args": ["./mcp-server/server.js"],
 			"env": {
 				"ANTHROPIC_API_KEY": "ANTHROPIC_API_KEY_HERE",
 				"PERPLEXITY_API_KEY": "PERPLEXITY_API_KEY_HERE",

.cursor/rules/test_workflow.mdc

@@ -1,803 +0,0 @@
----
-description: 
-globs: 
-alwaysApply: true
----
-# Test Workflow & Development Process
-
-## **Initial Testing Framework Setup**
-
-Before implementing the TDD workflow, ensure your project has a proper testing framework configured. This section covers setup for different technology stacks.
-
-### **Detecting Project Type & Framework Needs**
-
-**AI Agent Assessment Checklist:**
-1. **Language Detection**: Check for `package.json` (Node.js/JavaScript), `requirements.txt` (Python), `Cargo.toml` (Rust), etc.
-2. **Existing Tests**: Look for test files (`.test.`, `.spec.`, `_test.`) or test directories
-3. **Framework Detection**: Check for existing test runners in dependencies
-4. **Project Structure**: Analyze directory structure for testing patterns
-
-### **JavaScript/Node.js Projects (Jest Setup)**
-
-#### **Prerequisites Check**
-```bash
-# Verify Node.js project
-ls package.json  # Should exist
-
-# Check for existing testing setup
-ls jest.config.js jest.config.ts  # Check for Jest config
-grep -E "(jest|vitest|mocha)" package.json  # Check for test runners
-```
-
-#### **Jest Installation & Configuration**
-
-**Step 1: Install Dependencies**
-```bash
-# Core Jest dependencies
-npm install --save-dev jest
-
-# TypeScript support (if using TypeScript)
-npm install --save-dev ts-jest @types/jest
-
-# Additional useful packages
-npm install --save-dev supertest @types/supertest  # For API testing
-npm install --save-dev jest-watch-typeahead  # Enhanced watch mode
-```
-
-**Step 2: Create Jest Configuration**
-
-Create `jest.config.js` with the following production-ready configuration:
-
-```javascript
-/** @type {import('jest').Config} */
-module.exports = {
-  // Use ts-jest preset for TypeScript support
-  preset: 'ts-jest',
-
-  // Test environment
-  testEnvironment: 'node',
-
-  // Roots for test discovery
-  roots: ['<rootDir>/src', '<rootDir>/tests'],
-
-  // Test file patterns
-  testMatch: ['**/__tests__/**/*.ts', '**/?(*.)+(spec|test).ts'],
-
-  // Transform files
-  transform: {
-    '^.+\\.ts$': [
-      'ts-jest',
-      {
-        tsconfig: {
-          target: 'es2020',
-          module: 'commonjs',
-          esModuleInterop: true,
-          allowSyntheticDefaultImports: true,
-          skipLibCheck: true,
-          strict: false,
-          noImplicitAny: false,
-        },
-      },
-    ],
-    '^.+\\.js$': [
-      'ts-jest',
-      {
-        useESM: false,
-        tsconfig: {
-          target: 'es2020',
-          module: 'commonjs',
-          esModuleInterop: true,
-          allowSyntheticDefaultImports: true,
-          allowJs: true,
-        },
-      },
-    ],
-  },
-
-  // Module file extensions
-  moduleFileExtensions: ['ts', 'tsx', 'js', 'jsx', 'json', 'node'],
-
-  // Transform ignore patterns - adjust for ES modules
-  transformIgnorePatterns: ['node_modules/(?!(your-es-module-deps|.*\\.mjs$))'],
-
-  // Coverage configuration
-  collectCoverage: true,
-  coverageDirectory: 'coverage',
-  coverageReporters: [
-    'text', // Console output
-    'text-summary', // Brief summary
-    'lcov', // For IDE integration
-    'html', // Detailed HTML report
-  ],
-
-  // Files to collect coverage from
-  collectCoverageFrom: [
-    'src/**/*.ts',
-    '!src/**/*.d.ts',
-    '!src/**/*.test.ts',
-    '!src/**/index.ts', // Often just exports
-    '!src/generated/**', // Generated code
-    '!src/config/database.ts', // Database config (tested via integration)
-  ],
-
-  // Coverage thresholds - TaskMaster standards
-  coverageThreshold: {
-    global: {
-      branches: 70,
-      functions: 80,
-      lines: 80,
-      statements: 80,
-    },
-    // Higher standards for critical business logic
-    './src/utils/': {
-      branches: 85,
-      functions: 90,
-      lines: 90,
-      statements: 90,
-    },
-    './src/middleware/': {
-      branches: 80,
-      functions: 85,
-      lines: 85,
-      statements: 85,
-    },
-  },
-
-  // Setup files
-  setupFilesAfterEnv: ['<rootDir>/tests/setup.ts'],
-
-  // Global teardown to prevent worker process leaks
-  globalTeardown: '<rootDir>/tests/teardown.ts',
-
-  // Module path mapping (if needed)
-  moduleNameMapper: {
-    '^@/(.*)$': '<rootDir>/src/$1',
-  },
-
-  // Clear mocks between tests
-  clearMocks: true,
-
-  // Restore mocks after each test
-  restoreMocks: true,
-
-  // Global test timeout
-  testTimeout: 10000,
-
-  // Projects for different test types
-  projects: [
-    // Unit tests - for pure functions only
-    {
-      displayName: 'unit',
-      testMatch: ['<rootDir>/src/**/*.test.ts'],
-      testPathIgnorePatterns: ['.*\\.integration\\.test\\.ts$', '/tests/'],
-      preset: 'ts-jest',
-      testEnvironment: 'node',
-      collectCoverageFrom: [
-        'src/**/*.ts',
-        '!src/**/*.d.ts',
-        '!src/**/*.test.ts',
-        '!src/**/*.integration.test.ts',
-      ],
-      coverageThreshold: {
-        global: {
-          branches: 70,
-          functions: 80,
-          lines: 80,
-          statements: 80,
-        },
-      },
-    },
-    // Integration tests - real database/services
-    {
-      displayName: 'integration',
-      testMatch: [
-        '<rootDir>/src/**/*.integration.test.ts',
-        '<rootDir>/tests/integration/**/*.test.ts',
-      ],
-      preset: 'ts-jest',
-      testEnvironment: 'node',
-      setupFilesAfterEnv: ['<rootDir>/tests/setup/integration.ts'],
-      testTimeout: 10000,
-    },
-    // E2E tests - full workflows
-    {
-      displayName: 'e2e',
-      testMatch: ['<rootDir>/tests/e2e/**/*.test.ts'],
-      preset: 'ts-jest',
-      testEnvironment: 'node',
-      setupFilesAfterEnv: ['<rootDir>/tests/setup/e2e.ts'],
-      testTimeout: 30000,
-    },
-  ],
-
-  // Verbose output for better debugging
-  verbose: true,
-
-  // Run projects sequentially to avoid conflicts
-  maxWorkers: 1,
-
-  // Enable watch mode plugins
-  watchPlugins: ['jest-watch-typeahead/filename', 'jest-watch-typeahead/testname'],
-};
-```
-
-**Step 3: Update package.json Scripts**
-
-Add these scripts to your `package.json`:
-
-```json
-{
-  "scripts": {
-    "test": "jest",
-    "test:watch": "jest --watch",
-    "test:coverage": "jest --coverage",
-    "test:unit": "jest --selectProjects unit",
-    "test:integration": "jest --selectProjects integration", 
-    "test:e2e": "jest --selectProjects e2e",
-    "test:ci": "jest --ci --coverage --watchAll=false"
-  }
-}
-```
-
-**Step 4: Create Test Setup Files**
-
-Create essential test setup files:
-
-```typescript
-// tests/setup.ts - Global setup
-import { jest } from '@jest/globals';
-
-// Global test configuration
-beforeAll(() => {
-  // Set test timeout
-  jest.setTimeout(10000);
-});
-
-afterEach(() => {
-  // Clean up mocks after each test
-  jest.clearAllMocks();
-});
-```
-
-```typescript
-// tests/setup/integration.ts - Integration test setup
-import { PrismaClient } from '@prisma/client';
-
-const prisma = new PrismaClient();
-
-beforeAll(async () => {
-  // Connect to test database
-  await prisma.$connect();
-});
-
-afterAll(async () => {
-  // Cleanup and disconnect
-  await prisma.$disconnect();
-});
-
-beforeEach(async () => {
-  // Clean test data before each test
-  // Add your cleanup logic here
-});
-```
-
-```typescript
-// tests/teardown.ts - Global teardown
-export default async () => {
-  // Global cleanup after all tests
-  console.log('Global test teardown complete');
-};
-```
-
-**Step 5: Create Initial Test Structure**
-
-```bash
-# Create test directories
-mkdir -p tests/{setup,fixtures,unit,integration,e2e}
-mkdir -p tests/unit/src/{utils,services,middleware}
-
-# Create sample test fixtures
-mkdir tests/fixtures
-```
-
-### **Generic Testing Framework Setup (Any Language)**
-
-#### **Framework Selection Guide**
-
-**Python Projects:**
-- **pytest**: Recommended for most Python projects
-- **unittest**: Built-in, suitable for simple projects
-- **Coverage**: Use `coverage.py` for code coverage
-
-```bash
-# Python setup example
-pip install pytest pytest-cov
-echo "[tool:pytest]" > pytest.ini
-echo "testpaths = tests" >> pytest.ini
-echo "addopts = --cov=src --cov-report=html --cov-report=term" >> pytest.ini
-```
-
-**Go Projects:**
-- **Built-in testing**: Use Go's built-in `testing` package
-- **Coverage**: Built-in with `go test -cover`
-
-```bash
-# Go setup example
-go mod init your-project
-mkdir -p tests
-# Tests are typically *_test.go files alongside source
-```
-
-**Rust Projects:**
-- **Built-in testing**: Use Rust's built-in test framework
-- **cargo-tarpaulin**: For coverage analysis
-
-```bash
-# Rust setup example
-cargo new your-project
-cd your-project
-cargo install cargo-tarpaulin  # For coverage
-```
-
-**Java Projects:**
-- **JUnit 5**: Modern testing framework
-- **Maven/Gradle**: Build tools with testing integration
-
-```xml
-<!-- Maven pom.xml example -->
-<dependency>
-    <groupId>org.junit.jupiter</groupId>
-    <artifactId>junit-jupiter</artifactId>
-    <version>5.9.2</version>
-    <scope>test</scope>
-</dependency>
-```
-
-#### **Universal Testing Principles**
-
-**Coverage Standards (Adapt to Your Language):**
-- **Global Minimum**: 70-80% line coverage
-- **Critical Code**: 85-90% coverage
-- **New Features**: Must meet or exceed standards
-- **Legacy Code**: Gradual improvement strategy
-
-**Test Organization:**
-- **Unit Tests**: Fast, isolated, no external dependencies
-- **Integration Tests**: Test component interactions
-- **E2E Tests**: Test complete user workflows
-- **Performance Tests**: Load and stress testing (if applicable)
-
-**Naming Conventions:**
-- **Test Files**: `*.test.*`, `*_test.*`, or language-specific patterns
-- **Test Functions**: Descriptive names (e.g., `should_return_error_for_invalid_input`)
-- **Test Directories**: Organized by test type and mirroring source structure
-
-#### **TaskMaster Integration for Any Framework**
-
-**Document Testing Setup in Subtasks:**
-```bash
-# Update subtask with testing framework setup
-task-master update-subtask --id=X.Y --prompt="Testing framework setup:
-- Installed [Framework Name] with coverage support
-- Configured [Coverage Tool] with thresholds: 80% lines, 70% branches
-- Created test directory structure: unit/, integration/, e2e/
-- Added test scripts to build configuration
-- All setup tests passing"
-```
-
-**Testing Framework Verification:**
-```bash
-# Verify setup works
-[test-command]  # e.g., npm test, pytest, go test, cargo test
-
-# Check coverage reporting
-[coverage-command]  # e.g., npm run test:coverage
-
-# Update task with verification
-task-master update-subtask --id=X.Y --prompt="Testing framework verified:
-- Sample tests running successfully
-- Coverage reporting functional
-- CI/CD integration ready
-- Ready to begin TDD workflow"
-```
-
-## **Test-Driven Development (TDD) Integration**
-
-### **Core TDD Cycle with Jest**
-```bash
-# 1. Start development with watch mode
-npm run test:watch
-
-# 2. Write failing test first
-# Create test file: src/utils/newFeature.test.ts
-# Write test that describes expected behavior
-
-# 3. Implement minimum code to make test pass
-# 4. Refactor while keeping tests green
-# 5. Add edge cases and error scenarios
-```
-
-### **TDD Workflow Per Subtask**
-```bash
-# When starting a new subtask:
-task-master set-status --id=4.1 --status=in-progress
-
-# Begin TDD cycle:
-npm run test:watch  # Keep running during development
-
-# Document TDD progress in subtask:
-task-master update-subtask --id=4.1 --prompt="TDD Progress:
-- Written 3 failing tests for core functionality
-- Implemented basic feature, tests now passing
-- Adding edge case tests for error handling"
-
-# Complete subtask with test summary:
-task-master update-subtask --id=4.1 --prompt="Implementation complete:
-- Feature implemented with 8 unit tests
-- Coverage: 95% statements, 88% branches  
-- All tests passing, TDD cycle complete"
-```
-
-## **Testing Commands & Usage**
-
-### **Development Commands**
-```bash
-# Primary development command - use during coding
-npm run test:watch              # Watch mode with Jest
-npm run test:watch -- --testNamePattern="auth"  # Watch specific tests
-
-# Targeted testing during development
-npm run test:unit               # Run only unit tests
-npm run test:unit -- --coverage # Unit tests with coverage
-
-# Integration testing when APIs are ready
-npm run test:integration        # Run integration tests
-npm run test:integration -- --detectOpenHandles  # Debug hanging tests
-
-# End-to-end testing for workflows
-npm run test:e2e               # Run E2E tests
-npm run test:e2e -- --timeout=30000  # Extended timeout for E2E
-```
-
-### **Quality Assurance Commands**
-```bash
-# Full test suite with coverage (before commits)
-npm run test:coverage          # Complete coverage analysis
-
-# All tests (CI/CD pipeline)
-npm test                       # Run all test projects
-
-# Specific test file execution
-npm test -- auth.test.ts       # Run specific test file
-npm test -- --testNamePattern="should handle errors"  # Run specific tests
-```
-
-## **Test Implementation Patterns**
-
-### **Unit Test Development**
-```typescript
-// ✅ DO: Follow established patterns from auth.test.ts
-describe('FeatureName', () => {
-  beforeEach(() => {
-    jest.clearAllMocks();
-    // Setup mocks with proper typing
-  });
-
-  describe('functionName', () => {
-    it('should handle normal case', () => {
-      // Test implementation with specific assertions
-    });
-    
-    it('should throw error for invalid input', async () => {
-      // Error scenario testing
-      await expect(functionName(invalidInput))
-        .rejects.toThrow('Specific error message');
-    });
-  });
-});
-```
-
-### **Integration Test Development**  
-```typescript
-// ✅ DO: Use supertest for API endpoint testing
-import request from 'supertest';
-import { app } from '../../src/app';
-
-describe('POST /api/auth/register', () => {
-  beforeEach(async () => {
-    await integrationTestUtils.cleanupTestData();
-  });
-  
-  it('should register user successfully', async () => {
-    const userData = createTestUser();
-    
-    const response = await request(app)
-      .post('/api/auth/register')
-      .send(userData)
-      .expect(201);
-      
-    expect(response.body).toMatchObject({
-      id: expect.any(String),
-      email: userData.email
-    });
-    
-    // Verify database state
-    const user = await prisma.user.findUnique({
-      where: { email: userData.email }
-    });
-    expect(user).toBeTruthy();
-  });
-});
-```
-
-### **E2E Test Development**
-```typescript
-// ✅ DO: Test complete user workflows
-describe('User Authentication Flow', () => {
-  it('should complete registration → login → protected access', async () => {
-    // Step 1: Register
-    const userData = createTestUser();
-    await request(app)
-      .post('/api/auth/register')
-      .send(userData)
-      .expect(201);
-    
-    // Step 2: Login
-    const loginResponse = await request(app)
-      .post('/api/auth/login')
-      .send({ email: userData.email, password: userData.password })
-      .expect(200);
-    
-    const { token } = loginResponse.body;
-    
-    // Step 3: Access protected resource
-    await request(app)
-      .get('/api/profile')
-      .set('Authorization', `Bearer ${token}`)
-      .expect(200);
-  }, 30000); // Extended timeout for E2E
-});
-```
-
-## **Mocking & Test Utilities**
-
-### **Established Mocking Patterns**
-```typescript
-// ✅ DO: Use established bcrypt mocking pattern
-jest.mock('bcrypt');
-import bcrypt from 'bcrypt';
-const mockHash = bcrypt.hash as jest.MockedFunction<typeof bcrypt.hash>;
-const mockCompare = bcrypt.compare as jest.MockedFunction<typeof bcrypt.compare>;
-
-// ✅ DO: Use Prisma mocking for unit tests
-jest.mock('@prisma/client', () => ({
-  PrismaClient: jest.fn().mockImplementation(() => ({
-    user: {
-      create: jest.fn(),
-      findUnique: jest.fn(),
-    },
-    $connect: jest.fn(),
-    $disconnect: jest.fn(),
-  })),
-}));
-```
-
-### **Test Fixtures Usage**
-```typescript
-// ✅ DO: Use centralized test fixtures
-import { createTestUser, adminUser, invalidUser } from '../fixtures/users';
-
-describe('User Service', () => {
-  it('should handle admin user creation', async () => {
-    const userData = createTestUser(adminUser);
-    // Test implementation
-  });
-  
-  it('should reject invalid user data', async () => {
-    const userData = createTestUser(invalidUser);
-    // Error testing
-  });
-});
-```
-
-## **Coverage Standards & Monitoring**
-
-### **Coverage Thresholds**
-- **Global Standards**: 80% lines/functions, 70% branches
-- **Critical Code**: 90% utils, 85% middleware
-- **New Features**: Must meet or exceed global thresholds
-- **Legacy Code**: Gradual improvement with each change
-
-### **Coverage Reporting & Analysis**
-```bash
-# Generate coverage reports
-npm run test:coverage
-
-# View detailed HTML report
-open coverage/lcov-report/index.html
-
-# Coverage files generated:
-# - coverage/lcov-report/index.html  # Detailed HTML report
-# - coverage/lcov.info               # LCOV format for IDE integration  
-# - coverage/coverage-final.json     # JSON format for tooling
-```
-
-### **Coverage Quality Checks**
-```typescript
-// ✅ DO: Test all code paths
-describe('validateInput', () => {
-  it('should return true for valid input', () => {
-    expect(validateInput('valid')).toBe(true);
-  });
-  
-  it('should return false for various invalid inputs', () => {
-    expect(validateInput('')).toBe(false);      // Empty string
-    expect(validateInput(null)).toBe(false);    // Null value
-    expect(validateInput(undefined)).toBe(false); // Undefined
-  });
-  
-  it('should throw for unexpected input types', () => {
-    expect(() => validateInput(123)).toThrow('Invalid input type');
-  });
-});
-```
-
-## **Testing During Development Phases**
-
-### **Feature Development Phase**
-```bash
-# 1. Start feature development
-task-master set-status --id=X.Y --status=in-progress
-
-# 2. Begin TDD cycle  
-npm run test:watch
-
-# 3. Document test progress in subtask
-task-master update-subtask --id=X.Y --prompt="Test development:
-- Created test file with 5 failing tests
-- Implemented core functionality
-- Tests passing, adding error scenarios"
-
-# 4. Verify coverage before completion
-npm run test:coverage
-
-# 5. Update subtask with final test status
-task-master update-subtask --id=X.Y --prompt="Testing complete:
-- 12 unit tests with full coverage
-- All edge cases and error scenarios covered
-- Ready for integration testing"
-```
-
-### **Integration Testing Phase**
-```bash
-# After API endpoints are implemented
-npm run test:integration
-
-# Update integration test templates
-# Replace placeholder tests with real endpoint calls
-
-# Document integration test results
-task-master update-subtask --id=X.Y --prompt="Integration tests:
-- Updated auth endpoint tests  
-- Database integration verified
-- All HTTP status codes and responses tested"
-```
-
-### **Pre-Commit Testing Phase**
-```bash
-# Before committing code
-npm run test:coverage         # Verify all tests pass with coverage
-npm run test:unit            # Quick unit test verification
-npm run test:integration     # Integration test verification (if applicable)
-
-# Commit pattern for test updates
-git add tests/ src/**/*.test.ts
-git commit -m "test(task-X): Add comprehensive tests for Feature Y
-
-- Unit tests with 95% coverage (exceeds 90% threshold)
-- Integration tests for API endpoints
-- Test fixtures for data generation
-- Proper mocking patterns established
-
-Task X: Feature Y - Testing complete"
-```
-
-## **Error Handling & Debugging**
-
-### **Test Debugging Techniques**
-```typescript
-// ✅ DO: Use test utilities for debugging
-import { testUtils } from '../setup';
-
-it('should debug complex operation', () => {
-  testUtils.withConsole(() => {
-    // Console output visible only for this test
-    console.log('Debug info:', complexData);
-    service.complexOperation();
-  });
-});
-
-// ✅ DO: Use proper async debugging
-it('should handle async operations', async () => {
-  const promise = service.asyncOperation();
-  
-  // Test intermediate state
-  expect(service.isProcessing()).toBe(true);
-  
-  const result = await promise;
-  expect(result).toBe('expected');
-  expect(service.isProcessing()).toBe(false);
-});
-```
-
-### **Common Test Issues & Solutions**
-```bash
-# Hanging tests (common with database connections)
-npm run test:integration -- --detectOpenHandles
-
-# Memory leaks in tests
-npm run test:unit -- --logHeapUsage
-
-# Slow tests identification
-npm run test:coverage -- --verbose
-
-# Mock not working properly
-# Check: mock is declared before imports
-# Check: jest.clearAllMocks() in beforeEach
-# Check: TypeScript typing is correct
-```
-
-## **Continuous Integration Integration**
-
-### **CI/CD Pipeline Testing**
-```yaml
-# Example GitHub Actions integration
-- name: Run tests
-  run: |
-    npm ci
-    npm run test:coverage
-    
-- name: Upload coverage reports
-  uses: codecov/codecov-action@v3
-  with:
-    file: ./coverage/lcov.info
-```
-
-### **Pre-commit Hooks**
-```bash
-# Setup pre-commit testing (recommended)
-# In package.json scripts:
-"pre-commit": "npm run test:unit && npm run test:integration"
-
-# Husky integration example:
-npx husky add .husky/pre-commit "npm run test:unit"
-```
-
-## **Test Maintenance & Evolution**
-
-### **Adding Tests for New Features**
-1. **Create test file** alongside source code or in `tests/unit/`
-2. **Follow established patterns** from `src/utils/auth.test.ts`
-3. **Use existing fixtures** from `tests/fixtures/`
-4. **Apply proper mocking** patterns for dependencies
-5. **Meet coverage thresholds** for the module
-
-### **Updating Integration/E2E Tests**
-1. **Update templates** in `tests/integration/` when APIs change
-2. **Modify E2E workflows** in `tests/e2e/` for new user journeys  
-3. **Update test fixtures** for new data requirements
-4. **Maintain database cleanup** utilities
-
-### **Test Performance Optimization**
-- **Parallel execution**: Jest runs tests in parallel by default
-- **Test isolation**: Use proper setup/teardown for independence
-- **Mock optimization**: Mock heavy dependencies appropriately  
-- **Database efficiency**: Use transaction rollbacks where possible
-
----
-
-**Key References:**
-- [Testing Standards](mdc:.cursor/rules/tests.mdc)
-- [Git Workflow](mdc:.cursor/rules/git_workflow.mdc)
-- [Development Workflow](mdc:.cursor/rules/dev_workflow.mdc)
-- [Jest Configuration](mdc:jest.config.js)

.github/scripts/auto-close-duplicates.mjs

@@ -1,259 +0,0 @@
-#!/usr/bin/env node
-
-async function githubRequest(endpoint, token, method = 'GET', body) {
-	const response = await fetch(`https://api.github.com${endpoint}`, {
-		method,
-		headers: {
-			Authorization: `Bearer ${token}`,
-			Accept: 'application/vnd.github.v3+json',
-			'User-Agent': 'auto-close-duplicates-script',
-			...(body && { 'Content-Type': 'application/json' })
-		},
-		...(body && { body: JSON.stringify(body) })
-	});
-
-	if (!response.ok) {
-		throw new Error(
-			`GitHub API request failed: ${response.status} ${response.statusText}`
-		);
-	}
-
-	return response.json();
-}
-
-function extractDuplicateIssueNumber(commentBody) {
-	const match = commentBody.match(/#(\d+)/);
-	return match ? parseInt(match[1], 10) : null;
-}
-
-async function closeIssueAsDuplicate(
-	owner,
-	repo,
-	issueNumber,
-	duplicateOfNumber,
-	token
-) {
-	await githubRequest(
-		`/repos/${owner}/${repo}/issues/${issueNumber}`,
-		token,
-		'PATCH',
-		{
-			state: 'closed',
-			state_reason: 'not_planned',
-			labels: ['duplicate']
-		}
-	);
-
-	await githubRequest(
-		`/repos/${owner}/${repo}/issues/${issueNumber}/comments`,
-		token,
-		'POST',
-		{
-			body: `This issue has been automatically closed as a duplicate of #${duplicateOfNumber}.
-
-If this is incorrect, please re-open this issue or create a new one.
-
-🤖 Generated with [Task Master Bot]`
-		}
-	);
-}
-
-async function autoCloseDuplicates() {
-	console.log('[DEBUG] Starting auto-close duplicates script');
-
-	const token = process.env.GITHUB_TOKEN;
-	if (!token) {
-		throw new Error('GITHUB_TOKEN environment variable is required');
-	}
-	console.log('[DEBUG] GitHub token found');
-
-	const owner = process.env.GITHUB_REPOSITORY_OWNER || 'eyaltoledano';
-	const repo = process.env.GITHUB_REPOSITORY_NAME || 'claude-task-master';
-	console.log(`[DEBUG] Repository: ${owner}/${repo}`);
-
-	const threeDaysAgo = new Date();
-	threeDaysAgo.setDate(threeDaysAgo.getDate() - 3);
-	console.log(
-		`[DEBUG] Checking for duplicate comments older than: ${threeDaysAgo.toISOString()}`
-	);
-
-	console.log('[DEBUG] Fetching open issues created more than 3 days ago...');
-	const allIssues = [];
-	let page = 1;
-	const perPage = 100;
-
-	const MAX_PAGES = 50; // Increase limit for larger repos
-	let foundRecentIssue = false;
-
-	while (true) {
-		const pageIssues = await githubRequest(
-			`/repos/${owner}/${repo}/issues?state=open&per_page=${perPage}&page=${page}&sort=created&direction=desc`,
-			token
-		);
-
-		if (pageIssues.length === 0) break;
-
-		// Filter for issues created more than 3 days ago
-		const oldEnoughIssues = pageIssues.filter(
-			(issue) => new Date(issue.created_at) <= threeDaysAgo
-		);
-
-		allIssues.push(...oldEnoughIssues);
-
-		// If all issues on this page are newer than 3 days, we can stop
-		if (oldEnoughIssues.length === 0 && page === 1) {
-			foundRecentIssue = true;
-			break;
-		}
-
-		// If we found some old issues but not all, continue to next page
-		// as there might be more old issues
-		page++;
-
-		// Safety limit to avoid infinite loops
-		if (page > MAX_PAGES) {
-			console.log(`[WARNING] Reached maximum page limit of ${MAX_PAGES}`);
-			break;
-		}
-	}
-
-	const issues = allIssues;
-	console.log(`[DEBUG] Found ${issues.length} open issues`);
-
-	let processedCount = 0;
-	let candidateCount = 0;
-
-	for (const issue of issues) {
-		processedCount++;
-		console.log(
-			`[DEBUG] Processing issue #${issue.number} (${processedCount}/${issues.length}): ${issue.title}`
-		);
-
-		console.log(`[DEBUG] Fetching comments for issue #${issue.number}...`);
-		const comments = await githubRequest(
-			`/repos/${owner}/${repo}/issues/${issue.number}/comments`,
-			token
-		);
-		console.log(
-			`[DEBUG] Issue #${issue.number} has ${comments.length} comments`
-		);
-
-		const dupeComments = comments.filter(
-			(comment) =>
-				comment.body.includes('Found') &&
-				comment.body.includes('possible duplicate') &&
-				comment.user.type === 'Bot'
-		);
-		console.log(
-			`[DEBUG] Issue #${issue.number} has ${dupeComments.length} duplicate detection comments`
-		);
-
-		if (dupeComments.length === 0) {
-			console.log(
-				`[DEBUG] Issue #${issue.number} - no duplicate comments found, skipping`
-			);
-			continue;
-		}
-
-		const lastDupeComment = dupeComments[dupeComments.length - 1];
-		const dupeCommentDate = new Date(lastDupeComment.created_at);
-		console.log(
-			`[DEBUG] Issue #${
-				issue.number
-			} - most recent duplicate comment from: ${dupeCommentDate.toISOString()}`
-		);
-
-		if (dupeCommentDate > threeDaysAgo) {
-			console.log(
-				`[DEBUG] Issue #${issue.number} - duplicate comment is too recent, skipping`
-			);
-			continue;
-		}
-		console.log(
-			`[DEBUG] Issue #${
-				issue.number
-			} - duplicate comment is old enough (${Math.floor(
-				(Date.now() - dupeCommentDate.getTime()) / (1000 * 60 * 60 * 24)
-			)} days)`
-		);
-
-		const commentsAfterDupe = comments.filter(
-			(comment) => new Date(comment.created_at) > dupeCommentDate
-		);
-		console.log(
-			`[DEBUG] Issue #${issue.number} - ${commentsAfterDupe.length} comments after duplicate detection`
-		);
-
-		if (commentsAfterDupe.length > 0) {
-			console.log(
-				`[DEBUG] Issue #${issue.number} - has activity after duplicate comment, skipping`
-			);
-			continue;
-		}
-
-		console.log(
-			`[DEBUG] Issue #${issue.number} - checking reactions on duplicate comment...`
-		);
-		const reactions = await githubRequest(
-			`/repos/${owner}/${repo}/issues/comments/${lastDupeComment.id}/reactions`,
-			token
-		);
-		console.log(
-			`[DEBUG] Issue #${issue.number} - duplicate comment has ${reactions.length} reactions`
-		);
-
-		const authorThumbsDown = reactions.some(
-			(reaction) =>
-				reaction.user.id === issue.user.id && reaction.content === '-1'
-		);
-		console.log(
-			`[DEBUG] Issue #${issue.number} - author thumbs down reaction: ${authorThumbsDown}`
-		);
-
-		if (authorThumbsDown) {
-			console.log(
-				`[DEBUG] Issue #${issue.number} - author disagreed with duplicate detection, skipping`
-			);
-			continue;
-		}
-
-		const duplicateIssueNumber = extractDuplicateIssueNumber(
-			lastDupeComment.body
-		);
-		if (!duplicateIssueNumber) {
-			console.log(
-				`[DEBUG] Issue #${issue.number} - could not extract duplicate issue number from comment, skipping`
-			);
-			continue;
-		}
-
-		candidateCount++;
-		const issueUrl = `https://github.com/${owner}/${repo}/issues/${issue.number}`;
-
-		try {
-			console.log(
-				`[INFO] Auto-closing issue #${issue.number} as duplicate of #${duplicateIssueNumber}: ${issueUrl}`
-			);
-			await closeIssueAsDuplicate(
-				owner,
-				repo,
-				issue.number,
-				duplicateIssueNumber,
-				token
-			);
-			console.log(
-				`[SUCCESS] Successfully closed issue #${issue.number} as duplicate of #${duplicateIssueNumber}`
-			);
-		} catch (error) {
-			console.error(
-				`[ERROR] Failed to close issue #${issue.number} as duplicate: ${error}`
-			);
-		}
-	}
-
-	console.log(
-		`[DEBUG] Script completed. Processed ${processedCount} issues, found ${candidateCount} candidates for auto-close`
-	);
-}
-
-autoCloseDuplicates().catch(console.error);

.github/scripts/backfill-duplicate-comments.mjs

@@ -1,178 +0,0 @@
-#!/usr/bin/env node
-
-async function githubRequest(endpoint, token, method = 'GET', body) {
-	const response = await fetch(`https://api.github.com${endpoint}`, {
-		method,
-		headers: {
-			Authorization: `Bearer ${token}`,
-			Accept: 'application/vnd.github.v3+json',
-			'User-Agent': 'backfill-duplicate-comments-script',
-			...(body && { 'Content-Type': 'application/json' })
-		},
-		...(body && { body: JSON.stringify(body) })
-	});
-
-	if (!response.ok) {
-		throw new Error(
-			`GitHub API request failed: ${response.status} ${response.statusText}`
-		);
-	}
-
-	return response.json();
-}
-
-async function triggerDedupeWorkflow(
-	owner,
-	repo,
-	issueNumber,
-	token,
-	dryRun = true
-) {
-	if (dryRun) {
-		console.log(
-			`[DRY RUN] Would trigger dedupe workflow for issue #${issueNumber}`
-		);
-		return;
-	}
-
-	await githubRequest(
-		`/repos/${owner}/${repo}/actions/workflows/claude-dedupe-issues.yml/dispatches`,
-		token,
-		'POST',
-		{
-			ref: 'main',
-			inputs: {
-				issue_number: issueNumber.toString()
-			}
-		}
-	);
-}
-
-async function backfillDuplicateComments() {
-	console.log('[DEBUG] Starting backfill duplicate comments script');
-
-	const token = process.env.GITHUB_TOKEN;
-	if (!token) {
-		throw new Error(`GITHUB_TOKEN environment variable is required
-
-Usage:
-  node .github/scripts/backfill-duplicate-comments.mjs
-
-Environment Variables:
-  GITHUB_TOKEN - GitHub personal access token with repo and actions permissions (required)
-  DRY_RUN - Set to "false" to actually trigger workflows (default: true for safety)
-  DAYS_BACK - How many days back to look for old issues (default: 90)`);
-	}
-	console.log('[DEBUG] GitHub token found');
-
-	const owner = process.env.GITHUB_REPOSITORY_OWNER || 'eyaltoledano';
-	const repo = process.env.GITHUB_REPOSITORY_NAME || 'claude-task-master';
-	const dryRun = process.env.DRY_RUN !== 'false';
-	const daysBack = parseInt(process.env.DAYS_BACK || '90', 10);
-
-	console.log(`[DEBUG] Repository: ${owner}/${repo}`);
-	console.log(`[DEBUG] Dry run mode: ${dryRun}`);
-	console.log(`[DEBUG] Looking back ${daysBack} days`);
-
-	const cutoffDate = new Date();
-	cutoffDate.setDate(cutoffDate.getDate() - daysBack);
-
-	console.log(
-		`[DEBUG] Fetching issues created since ${cutoffDate.toISOString()}...`
-	);
-	const allIssues = [];
-	let page = 1;
-	const perPage = 100;
-
-	while (true) {
-		const pageIssues = await githubRequest(
-			`/repos/${owner}/${repo}/issues?state=all&per_page=${perPage}&page=${page}&since=${cutoffDate.toISOString()}`,
-			token
-		);
-
-		if (pageIssues.length === 0) break;
-
-		allIssues.push(...pageIssues);
-		page++;
-
-		// Safety limit to avoid infinite loops
-		if (page > 100) {
-			console.log('[DEBUG] Reached page limit, stopping pagination');
-			break;
-		}
-	}
-
-	console.log(
-		`[DEBUG] Found ${allIssues.length} issues from the last ${daysBack} days`
-	);
-
-	let processedCount = 0;
-	let candidateCount = 0;
-	let triggeredCount = 0;
-
-	for (const issue of allIssues) {
-		processedCount++;
-		console.log(
-			`[DEBUG] Processing issue #${issue.number} (${processedCount}/${allIssues.length}): ${issue.title}`
-		);
-
-		console.log(`[DEBUG] Fetching comments for issue #${issue.number}...`);
-		const comments = await githubRequest(
-			`/repos/${owner}/${repo}/issues/${issue.number}/comments`,
-			token
-		);
-		console.log(
-			`[DEBUG] Issue #${issue.number} has ${comments.length} comments`
-		);
-
-		// Look for existing duplicate detection comments (from the dedupe bot)
-		const dupeDetectionComments = comments.filter(
-			(comment) =>
-				comment.body.includes('Found') &&
-				comment.body.includes('possible duplicate') &&
-				comment.user.type === 'Bot'
-		);
-
-		console.log(
-			`[DEBUG] Issue #${issue.number} has ${dupeDetectionComments.length} duplicate detection comments`
-		);
-
-		// Skip if there's already a duplicate detection comment
-		if (dupeDetectionComments.length > 0) {
-			console.log(
-				`[DEBUG] Issue #${issue.number} already has duplicate detection comment, skipping`
-			);
-			continue;
-		}
-
-		candidateCount++;
-		const issueUrl = `https://github.com/${owner}/${repo}/issues/${issue.number}`;
-
-		try {
-			console.log(
-				`[INFO] ${dryRun ? '[DRY RUN] ' : ''}Triggering dedupe workflow for issue #${issue.number}: ${issueUrl}`
-			);
-			await triggerDedupeWorkflow(owner, repo, issue.number, token, dryRun);
-
-			if (!dryRun) {
-				console.log(
-					`[SUCCESS] Successfully triggered dedupe workflow for issue #${issue.number}`
-				);
-			}
-			triggeredCount++;
-		} catch (error) {
-			console.error(
-				`[ERROR] Failed to trigger workflow for issue #${issue.number}: ${error}`
-			);
-		}
-
-		// Add a delay between workflow triggers to avoid overwhelming the system
-		await new Promise((resolve) => setTimeout(resolve, 1000));
-	}
-
-	console.log(
-		`[DEBUG] Script completed. Processed ${processedCount} issues, found ${candidateCount} candidates without duplicate comments, ${dryRun ? 'would trigger' : 'triggered'} ${triggeredCount} workflows`
-	);
-}
-
-backfillDuplicateComments().catch(console.error);

.github/scripts/check-pre-release-mode.mjs

@@ -1,102 +0,0 @@
-#!/usr/bin/env node
-import { readFileSync, existsSync } from 'node:fs';
-import { join, dirname, resolve } from 'node:path';
-import { fileURLToPath } from 'node:url';
-
-const __filename = fileURLToPath(import.meta.url);
-const __dirname = dirname(__filename);
-
-// Get context from command line argument or environment
-const context = process.argv[2] || process.env.GITHUB_WORKFLOW || 'manual';
-
-function findRootDir(startDir) {
-	let currentDir = resolve(startDir);
-	while (currentDir !== '/') {
-		if (existsSync(join(currentDir, 'package.json'))) {
-			try {
-				const pkg = JSON.parse(
-					readFileSync(join(currentDir, 'package.json'), 'utf8')
-				);
-				if (pkg.name === 'task-master-ai' || pkg.repository) {
-					return currentDir;
-				}
-			} catch {}
-		}
-		currentDir = dirname(currentDir);
-	}
-	throw new Error('Could not find root directory');
-}
-
-function checkPreReleaseMode() {
-	console.log('🔍 Checking if branch is in pre-release mode...');
-
-	const rootDir = findRootDir(__dirname);
-	const preJsonPath = join(rootDir, '.changeset', 'pre.json');
-
-	// Check if pre.json exists
-	if (!existsSync(preJsonPath)) {
-		console.log('✅ Not in active pre-release mode - safe to proceed');
-		process.exit(0);
-	}
-
-	try {
-		// Read and parse pre.json
-		const preJsonContent = readFileSync(preJsonPath, 'utf8');
-		const preJson = JSON.parse(preJsonContent);
-
-		// Check if we're in active pre-release mode
-		if (preJson.mode === 'pre') {
-			console.error('❌ ERROR: This branch is in active pre-release mode!');
-			console.error('');
-
-			// Provide context-specific error messages
-			if (context === 'Release Check' || context === 'pull_request') {
-				console.error(
-					'Pre-release mode must be exited before merging to main.'
-				);
-				console.error('');
-				console.error(
-					'To fix this, run the following commands in your branch:'
-				);
-				console.error('  npx changeset pre exit');
-				console.error('  git add -u');
-				console.error('  git commit -m "chore: exit pre-release mode"');
-				console.error('  git push');
-				console.error('');
-				console.error('Then update this pull request.');
-			} else if (context === 'Release' || context === 'main') {
-				console.error(
-					'Pre-release mode should only be used on feature branches, not main.'
-				);
-				console.error('');
-				console.error('To fix this, run the following commands locally:');
-				console.error('  npx changeset pre exit');
-				console.error('  git add -u');
-				console.error('  git commit -m "chore: exit pre-release mode"');
-				console.error('  git push origin main');
-				console.error('');
-				console.error('Then re-run this workflow.');
-			} else {
-				console.error('Pre-release mode must be exited before proceeding.');
-				console.error('');
-				console.error('To fix this, run the following commands:');
-				console.error('  npx changeset pre exit');
-				console.error('  git add -u');
-				console.error('  git commit -m "chore: exit pre-release mode"');
-				console.error('  git push');
-			}
-
-			process.exit(1);
-		}
-
-		console.log('✅ Not in active pre-release mode - safe to proceed');
-		process.exit(0);
-	} catch (error) {
-		console.error(`❌ ERROR: Unable to parse .changeset/pre.json – aborting.`);
-		console.error(`Error details: ${error.message}`);
-		process.exit(1);
-	}
-}
-
-// Run the check
-checkPreReleaseMode();

.github/scripts/parse-metrics.mjs

@@ -1,157 +0,0 @@
-#!/usr/bin/env node
-
-import { readFileSync, existsSync, writeFileSync } from 'fs';
-
-function parseMetricsTable(content, metricName) {
-	const lines = content.split('\n');
-
-	for (let i = 0; i < lines.length; i++) {
-		const line = lines[i].trim();
-		// Match a markdown table row like: | Metric Name | value | ...
-		const safeName = metricName.replace(/[.*+?^${}()|[\]\\]/g, '\\$&');
-		const re = new RegExp(`^\\|\\s*${safeName}\\s*\\|\\s*([^|]+)\\|?`);
-		const match = line.match(re);
-		if (match) {
-			return match[1].trim() || 'N/A';
-		}
-	}
-	return 'N/A';
-}
-
-function parseCountMetric(content, metricName) {
-	const result = parseMetricsTable(content, metricName);
-	// Extract number from string, handling commas and spaces
-	const numberMatch = result.toString().match(/[\d,]+/);
-	if (numberMatch) {
-		const number = parseInt(numberMatch[0].replace(/,/g, ''));
-		return isNaN(number) ? 0 : number;
-	}
-	return 0;
-}
-
-function main() {
-	const metrics = {
-		issues_created: 0,
-		issues_closed: 0,
-		prs_created: 0,
-		prs_merged: 0,
-		issue_avg_first_response: 'N/A',
-		issue_avg_time_to_close: 'N/A',
-		pr_avg_first_response: 'N/A',
-		pr_avg_merge_time: 'N/A'
-	};
-
-	// Parse issue metrics
-	if (existsSync('issue_metrics.md')) {
-		console.log('📄 Found issue_metrics.md, parsing...');
-		const issueContent = readFileSync('issue_metrics.md', 'utf8');
-
-		metrics.issues_created = parseCountMetric(
-			issueContent,
-			'Total number of items created'
-		);
-		metrics.issues_closed = parseCountMetric(
-			issueContent,
-			'Number of items closed'
-		);
-		metrics.issue_avg_first_response = parseMetricsTable(
-			issueContent,
-			'Time to first response'
-		);
-		metrics.issue_avg_time_to_close = parseMetricsTable(
-			issueContent,
-			'Time to close'
-		);
-	} else {
-		console.warn('[parse-metrics] issue_metrics.md not found; using defaults.');
-	}
-
-	// Parse PR created metrics
-	if (existsSync('pr_created_metrics.md')) {
-		console.log('📄 Found pr_created_metrics.md, parsing...');
-		const prCreatedContent = readFileSync('pr_created_metrics.md', 'utf8');
-
-		metrics.prs_created = parseCountMetric(
-			prCreatedContent,
-			'Total number of items created'
-		);
-		metrics.pr_avg_first_response = parseMetricsTable(
-			prCreatedContent,
-			'Time to first response'
-		);
-	} else {
-		console.warn(
-			'[parse-metrics] pr_created_metrics.md not found; using defaults.'
-		);
-	}
-
-	// Parse PR merged metrics (for more accurate merge data)
-	if (existsSync('pr_merged_metrics.md')) {
-		console.log('📄 Found pr_merged_metrics.md, parsing...');
-		const prMergedContent = readFileSync('pr_merged_metrics.md', 'utf8');
-
-		metrics.prs_merged = parseCountMetric(
-			prMergedContent,
-			'Total number of items created'
-		);
-		// For merged PRs, "Time to close" is actually time to merge
-		metrics.pr_avg_merge_time = parseMetricsTable(
-			prMergedContent,
-			'Time to close'
-		);
-	} else {
-		console.warn(
-			'[parse-metrics] pr_merged_metrics.md not found; falling back to pr_metrics.md.'
-		);
-		// Fallback: try old pr_metrics.md if it exists
-		if (existsSync('pr_metrics.md')) {
-			console.log('📄 Falling back to pr_metrics.md...');
-			const prContent = readFileSync('pr_metrics.md', 'utf8');
-
-			const mergedCount = parseCountMetric(prContent, 'Number of items merged');
-			metrics.prs_merged =
-				mergedCount || parseCountMetric(prContent, 'Number of items closed');
-
-			const maybeMergeTime = parseMetricsTable(
-				prContent,
-				'Average time to merge'
-			);
-			metrics.pr_avg_merge_time =
-				maybeMergeTime !== 'N/A'
-					? maybeMergeTime
-					: parseMetricsTable(prContent, 'Time to close');
-		} else {
-			console.warn('[parse-metrics] pr_metrics.md not found; using defaults.');
-		}
-	}
-
-	// Output for GitHub Actions
-	const output = Object.entries(metrics)
-		.map(([key, value]) => `${key}=${value}`)
-		.join('\n');
-
-	// Always output to stdout for debugging
-	console.log('\n=== FINAL METRICS ===');
-	Object.entries(metrics).forEach(([key, value]) => {
-		console.log(`${key}: ${value}`);
-	});
-
-	// Write to GITHUB_OUTPUT if in GitHub Actions
-	if (process.env.GITHUB_OUTPUT) {
-		try {
-			writeFileSync(process.env.GITHUB_OUTPUT, output + '\n', { flag: 'a' });
-			console.log(
-				`\nSuccessfully wrote metrics to ${process.env.GITHUB_OUTPUT}`
-			);
-		} catch (error) {
-			console.error(`Failed to write to GITHUB_OUTPUT: ${error.message}`);
-			process.exit(1);
-		}
-	} else {
-		console.log(
-			'\nNo GITHUB_OUTPUT environment variable found, skipping file write'
-		);
-	}
-}
-
-main();

.github/scripts/release.mjs

@@ -1,30 +0,0 @@
-#!/usr/bin/env node
-import { existsSync, unlinkSync } from 'node:fs';
-import { join, dirname } from 'node:path';
-import { fileURLToPath } from 'node:url';
-import { findRootDir, runCommand } from './utils.mjs';
-
-const __filename = fileURLToPath(import.meta.url);
-const __dirname = dirname(__filename);
-
-const rootDir = findRootDir(__dirname);
-
-console.log('🚀 Starting release process...');
-
-// Double-check we're not in pre-release mode (safety net)
-const preJsonPath = join(rootDir, '.changeset', 'pre.json');
-if (existsSync(preJsonPath)) {
-	console.log('⚠️  Warning: pre.json still exists. Removing it...');
-	unlinkSync(preJsonPath);
-}
-
-// Check if the extension version has changed and tag it
-// This prevents changeset from trying to publish the private package
-runCommand('node', [join(__dirname, 'tag-extension.mjs')]);
-
-// Run changeset publish for npm packages
-runCommand('npx', ['changeset', 'publish']);
-
-console.log('✅ Release process completed!');
-
-// The extension tag (if created) will trigger the extension-release workflow

.github/scripts/tag-extension.mjs

@@ -1,33 +0,0 @@
-#!/usr/bin/env node
-import assert from 'node:assert/strict';
-import { readFileSync } from 'node:fs';
-import { join, dirname } from 'node:path';
-import { fileURLToPath } from 'node:url';
-import { findRootDir, createAndPushTag } from './utils.mjs';
-
-const __filename = fileURLToPath(import.meta.url);
-const __dirname = dirname(__filename);
-
-const rootDir = findRootDir(__dirname);
-
-// Read the extension's package.json
-const extensionDir = join(rootDir, 'apps', 'extension');
-const pkgPath = join(extensionDir, 'package.json');
-
-let pkg;
-try {
-	const pkgContent = readFileSync(pkgPath, 'utf8');
-	pkg = JSON.parse(pkgContent);
-} catch (error) {
-	console.error('Failed to read package.json:', error.message);
-	process.exit(1);
-}
-
-// Ensure we have required fields
-assert(pkg.name, 'package.json must have a name field');
-assert(pkg.version, 'package.json must have a version field');
-
-const tag = `${pkg.name}@${pkg.version}`;
-
-// Create and push the tag if it doesn't exist
-createAndPushTag(tag);

.github/scripts/utils.mjs

@@ -1,88 +0,0 @@
-#!/usr/bin/env node
-import { spawnSync } from 'node:child_process';
-import { readFileSync } from 'node:fs';
-import { join, dirname, resolve } from 'node:path';
-
-// Find the root directory by looking for package.json with task-master-ai
-export function findRootDir(startDir) {
-	let currentDir = resolve(startDir);
-	while (currentDir !== '/') {
-		const pkgPath = join(currentDir, 'package.json');
-		try {
-			const pkg = JSON.parse(readFileSync(pkgPath, 'utf8'));
-			if (pkg.name === 'task-master-ai' || pkg.repository) {
-				return currentDir;
-			}
-		} catch {}
-		currentDir = dirname(currentDir);
-	}
-	throw new Error('Could not find root directory');
-}
-
-// Run a command with proper error handling
-export function runCommand(command, args = [], options = {}) {
-	console.log(`Running: ${command} ${args.join(' ')}`);
-	const result = spawnSync(command, args, {
-		encoding: 'utf8',
-		stdio: 'inherit',
-		...options
-	});
-
-	if (result.status !== 0) {
-		console.error(`Command failed with exit code ${result.status}`);
-		process.exit(result.status);
-	}
-
-	return result;
-}
-
-// Get package version from a package.json file
-export function getPackageVersion(packagePath) {
-	try {
-		const pkg = JSON.parse(readFileSync(packagePath, 'utf8'));
-		return pkg.version;
-	} catch (error) {
-		console.error(
-			`Failed to read package version from ${packagePath}:`,
-			error.message
-		);
-		process.exit(1);
-	}
-}
-
-// Check if a git tag exists on remote
-export function tagExistsOnRemote(tag, remote = 'origin') {
-	const result = spawnSync('git', ['ls-remote', remote, tag], {
-		encoding: 'utf8'
-	});
-
-	return result.status === 0 && result.stdout.trim() !== '';
-}
-
-// Create and push a git tag if it doesn't exist
-export function createAndPushTag(tag, remote = 'origin') {
-	// Check if tag already exists
-	if (tagExistsOnRemote(tag, remote)) {
-		console.log(`Tag ${tag} already exists on remote, skipping`);
-		return false;
-	}
-
-	console.log(`Creating new tag: ${tag}`);
-
-	// Create the tag locally
-	const tagResult = spawnSync('git', ['tag', tag]);
-	if (tagResult.status !== 0) {
-		console.error('Failed to create tag:', tagResult.error || tagResult.stderr);
-		process.exit(1);
-	}
-
-	// Push the tag to remote
-	const pushResult = spawnSync('git', ['push', remote, tag]);
-	if (pushResult.status !== 0) {
-		console.error('Failed to push tag:', pushResult.error || pushResult.stderr);
-		process.exit(1);
-	}
-
-	console.log(`✅ Successfully created and pushed tag: ${tag}`);
-	return true;
-}

.github/workflows/auto-close-duplicates.yml

@@ -1,31 +0,0 @@
-name: Auto-close duplicate issues
-# description: Auto-closes issues that are duplicates of existing issues
-
-on:
-  schedule:
-    - cron: "0 9 * * *"  # Runs daily at 9 AM UTC
-  workflow_dispatch:
-
-jobs:
-  auto-close-duplicates:
-    runs-on: ubuntu-latest
-    timeout-minutes: 10
-    permissions:
-      contents: read
-      issues: write  # Need write permission to close issues and add comments
-
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v4
-
-      - name: Setup Node.js
-        uses: actions/setup-node@v4
-        with:
-          node-version: 20
-
-      - name: Auto-close duplicate issues
-        run: node .github/scripts/auto-close-duplicates.mjs
-        env:
-          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-          GITHUB_REPOSITORY_OWNER: ${{ github.repository_owner }}
-          GITHUB_REPOSITORY_NAME: ${{ github.event.repository.name }}

.github/workflows/backfill-duplicate-comments.yml

@@ -1,46 +0,0 @@
-name: Backfill Duplicate Comments
-# description: Triggers duplicate detection for old issues that don't have duplicate comments
-
-on:
-  workflow_dispatch:
-    inputs:
-      days_back:
-        description: "How many days back to look for old issues"
-        required: false
-        default: "90"
-        type: string
-      dry_run:
-        description: "Dry run mode (true to only log what would be done)"
-        required: false
-        default: "true"
-        type: choice
-        options:
-          - "true"
-          - "false"
-
-jobs:
-  backfill-duplicate-comments:
-    runs-on: ubuntu-latest
-    timeout-minutes: 30
-    permissions:
-      contents: read
-      issues: read
-      actions: write
-
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v4
-
-      - name: Setup Node.js
-        uses: actions/setup-node@v4
-        with:
-          node-version: 20
-
-      - name: Backfill duplicate comments
-        run: node .github/scripts/backfill-duplicate-comments.mjs
-        env:
-          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-          GITHUB_REPOSITORY_OWNER: ${{ github.repository_owner }}
-          GITHUB_REPOSITORY_NAME: ${{ github.event.repository.name }}
-          DAYS_BACK: ${{ inputs.days_back }}
-          DRY_RUN: ${{ inputs.dry_run }}

.github/workflows/ci.yml

@@ -6,124 +6,73 @@ on:
       - main
       - next
   pull_request:
-  workflow_dispatch:
-
-concurrency:
-  group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
-  cancel-in-progress: true
+    branches:
+      - main
+      - next
 
 permissions:
   contents: read
 
-env:
-  DO_NOT_TRACK: 1
-  NODE_ENV: development
-
 jobs:
-  # Fast checks that can run in parallel
-  format-check:
-    name: Format Check
+  setup:
     runs-on: ubuntu-latest
     steps:
       - uses: actions/checkout@v4
         with:
-          fetch-depth: 2
+          fetch-depth: 0
 
       - uses: actions/setup-node@v4
         with:
           node-version: 20
-          cache: "npm"
+          cache: 'npm'
 
-      - name: Install dependencies
-        run: npm install --frozen-lockfile --prefer-offline
-        timeout-minutes: 5
+      - name: Install Dependencies
+        id: install
+        run: npm ci
+        timeout-minutes: 2
+
+      - name: Cache node_modules
+        uses: actions/cache@v4
+        with:
+          path: node_modules
+          key: ${{ runner.os }}-node-modules-${{ hashFiles('**/package-lock.json') }}
+
+  format-check:
+    needs: setup
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@v4
+
+      - uses: actions/setup-node@v4
+        with:
+          node-version: 20
+
+      - name: Restore node_modules
+        uses: actions/cache@v4
+        with:
+          path: node_modules
+          key: ${{ runner.os }}-node-modules-${{ hashFiles('**/package-lock.json') }}
 
       - name: Format Check
         run: npm run format-check
         env:
           FORCE_COLOR: 1
 
-  typecheck:
-    name: Typecheck
-    timeout-minutes: 10
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v4
-        with:
-          fetch-depth: 2
-
-      - uses: actions/setup-node@v4
-        with:
-          node-version: 20
-          cache: "npm"
-
-      - name: Install dependencies
-        run: npm install --frozen-lockfile --prefer-offline
-        timeout-minutes: 5
-
-      - name: Typecheck
-        run: npm run turbo:typecheck
-        env:
-          FORCE_COLOR: 1
-
-  # Build job to ensure everything compiles
-  build:
-    name: Build
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v4
-        with:
-          fetch-depth: 2
-
-      - uses: actions/setup-node@v4
-        with:
-          node-version: 20
-          cache: "npm"
-
-      - name: Install dependencies
-        run: npm install --frozen-lockfile --prefer-offline
-        timeout-minutes: 5
-
-      - name: Build
-        run: npm run turbo:build
-        env:
-          NODE_ENV: production
-          FORCE_COLOR: 1
-          TM_PUBLIC_BASE_DOMAIN: ${{ secrets.TM_PUBLIC_BASE_DOMAIN }}
-          TM_PUBLIC_SUPABASE_URL: ${{ secrets.TM_PUBLIC_SUPABASE_URL }}
-          TM_PUBLIC_SUPABASE_ANON_KEY: ${{ secrets.TM_PUBLIC_SUPABASE_ANON_KEY }}
-
-      - name: Upload build artifacts
-        uses: actions/upload-artifact@v4
-        with:
-          name: build-artifacts
-          path: dist/
-          retention-days: 1
-
   test:
-    name: Test
-    timeout-minutes: 15
+    needs: setup
     runs-on: ubuntu-latest
-    needs: [format-check, typecheck, build]
     steps:
       - uses: actions/checkout@v4
-        with:
-          fetch-depth: 2
 
       - uses: actions/setup-node@v4
         with:
           node-version: 20
-          cache: "npm"
 
-      - name: Install dependencies
-        run: npm install --frozen-lockfile --prefer-offline
-        timeout-minutes: 5
-
-      - name: Download build artifacts
-        uses: actions/download-artifact@v4
+      - name: Restore node_modules
+        uses: actions/cache@v4
         with:
-          name: build-artifacts
-          path: dist/
+          path: node_modules
+          key: ${{ runner.os }}-node-modules-${{ hashFiles('**/package-lock.json') }}
 
       - name: Run Tests
         run: |
@@ -132,6 +81,7 @@ jobs:
           NODE_ENV: test
           CI: true
           FORCE_COLOR: 1
+        timeout-minutes: 10
 
       - name: Upload Test Results
         if: always()

.github/workflows/claude-dedupe-issues.yml

@@ -1,81 +0,0 @@
-name: Claude Issue Dedupe
-# description: Automatically dedupe GitHub issues using Claude Code
-
-on:
-  issues:
-    types: [opened]
-  workflow_dispatch:
-    inputs:
-      issue_number:
-        description: "Issue number to process for duplicate detection"
-        required: true
-        type: string
-
-jobs:
-  claude-dedupe-issues:
-    runs-on: ubuntu-latest
-    timeout-minutes: 10
-    permissions:
-      contents: read
-      issues: write
-
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v4
-
-      - name: Run Claude Code slash command
-        uses: anthropics/claude-code-base-action@beta
-        with:
-          prompt: "/dedupe ${{ github.repository }}/issues/${{ github.event.issue.number || inputs.issue_number }}"
-          anthropic_api_key: ${{ secrets.ANTHROPIC_API_KEY }}
-          claude_env: |
-            GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-
-      - name: Log duplicate comment event to Statsig
-        if: always()
-        env:
-          STATSIG_API_KEY: ${{ secrets.STATSIG_API_KEY }}
-        run: |
-          ISSUE_NUMBER=${{ github.event.issue.number || inputs.issue_number }}
-          REPO=${{ github.repository }}
-
-          if [ -z "$STATSIG_API_KEY" ]; then
-            echo "STATSIG_API_KEY not found, skipping Statsig logging"
-            exit 0
-          fi
-
-          # Prepare the event payload
-          EVENT_PAYLOAD=$(jq -n \
-            --arg issue_number "$ISSUE_NUMBER" \
-            --arg repo "$REPO" \
-            --arg triggered_by "${{ github.event_name }}" \
-            '{
-              events: [{
-                eventName: "github_duplicate_comment_added",
-                value: 1,
-                metadata: {
-                  repository: $repo,
-                  issue_number: ($issue_number | tonumber),
-                  triggered_by: $triggered_by,
-                  workflow_run_id: "${{ github.run_id }}"
-                },
-                time: (now | floor | tostring)
-              }]
-            }')
-
-          # Send to Statsig API
-          echo "Logging duplicate comment event to Statsig for issue #${ISSUE_NUMBER}"
-
-          RESPONSE=$(curl -s -w "\n%{http_code}" -X POST https://events.statsigapi.net/v1/log_event \
-            -H "Content-Type: application/json" \
-            -H "STATSIG-API-KEY: ${STATSIG_API_KEY}" \
-            -d "$EVENT_PAYLOAD")
-
-          HTTP_CODE=$(echo "$RESPONSE" | tail -n1)
-          BODY=$(echo "$RESPONSE" | head -n-1)
-
-          if [ "$HTTP_CODE" -eq 200 ] || [ "$HTTP_CODE" -eq 202 ]; then
-            echo "Successfully logged duplicate comment event for issue #${ISSUE_NUMBER}"
-          else
-            echo "Failed to log duplicate comment event for issue #${ISSUE_NUMBER}. HTTP ${HTTP_CODE}: ${BODY}"
-          fi

.github/workflows/claude-docs-trigger.yml

@@ -1,57 +0,0 @@
-name: Trigger Claude Documentation Update
-
-on:
-  push:
-    branches:
-      - next
-    paths-ignore:
-      - "apps/docs/**"
-      - "*.md"
-      - ".github/workflows/**"
-
-jobs:
-  trigger-docs-update:
-    # Only run if changes were merged (not direct pushes from bots)
-    if: github.actor != 'github-actions[bot]' && github.actor != 'dependabot[bot]'
-    runs-on: ubuntu-latest
-    permissions:
-      contents: read
-      actions: write
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v4
-        with:
-          fetch-depth: 2 # Need previous commit for comparison
-
-      - name: Get changed files
-        id: changed-files
-        run: |
-          echo "Changed files in this push:"
-          git diff --name-only HEAD^ HEAD | tee changed_files.txt
-
-          # Store changed files for Claude to analyze (escaped for JSON)
-          CHANGED_FILES=$(git diff --name-only HEAD^ HEAD | jq -Rs .)
-          echo "changed_files=$CHANGED_FILES" >> $GITHUB_OUTPUT
-
-          # Get the commit message (escaped for JSON)
-          COMMIT_MSG=$(git log -1 --pretty=%B | jq -Rs .)
-          echo "commit_message=$COMMIT_MSG" >> $GITHUB_OUTPUT
-
-          # Get diff for documentation context (escaped for JSON)
-          COMMIT_DIFF=$(git diff HEAD^ HEAD --stat | jq -Rs .)
-          echo "commit_diff=$COMMIT_DIFF" >> $GITHUB_OUTPUT
-
-          # Get commit SHA
-          echo "commit_sha=${{ github.sha }}" >> $GITHUB_OUTPUT
-
-      - name: Trigger Claude workflow
-        env:
-          GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-        run: |
-          # Trigger the Claude docs updater workflow with the change information
-          gh workflow run claude-docs-updater.yml \
-            --ref next \
-            -f commit_sha="${{ steps.changed-files.outputs.commit_sha }}" \
-            -f commit_message=${{ steps.changed-files.outputs.commit_message }} \
-            -f changed_files=${{ steps.changed-files.outputs.changed_files }} \
-            -f commit_diff=${{ steps.changed-files.outputs.commit_diff }}

.github/workflows/claude-docs-updater.yml

@@ -1,145 +0,0 @@
-name: Claude Documentation Updater
-
-on:
-  workflow_dispatch:
-    inputs:
-      commit_sha:
-        description: 'The commit SHA that triggered this update'
-        required: true
-        type: string
-      commit_message:
-        description: 'The commit message'
-        required: true
-        type: string
-      changed_files:
-        description: 'List of changed files'
-        required: true
-        type: string
-      commit_diff:
-        description: 'Diff summary of changes'
-        required: true
-        type: string
-
-jobs:
-  update-docs:
-    runs-on: ubuntu-latest
-    permissions:
-      contents: write
-      pull-requests: write
-      issues: write
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v4
-        with:
-          ref: next
-          fetch-depth: 0 # Need full history to checkout specific commit
-
-      - name: Create docs update branch
-        id: create-branch
-        run: |
-          BRANCH_NAME="docs/auto-update-$(date +%Y%m%d-%H%M%S)"
-          git checkout -b $BRANCH_NAME
-          echo "branch_name=$BRANCH_NAME" >> $GITHUB_OUTPUT
-
-      - name: Run Claude Code to Update Documentation
-        uses: anthropics/claude-code-action@beta
-        with:
-          anthropic_api_key: ${{ secrets.ANTHROPIC_API_KEY }}
-          timeout_minutes: "30"
-          mode: "agent"
-          github_token: ${{ secrets.GITHUB_TOKEN }}
-          experimental_allowed_domains: |
-            .anthropic.com
-            .github.com
-            api.github.com
-            .githubusercontent.com
-            registry.npmjs.org
-            .task-master.dev
-          base_branch: "next"
-          direct_prompt: |
-            You are a documentation specialist. Analyze the recent changes pushed to the 'next' branch and update the documentation accordingly.
-
-            Recent changes:
-            - Commit: ${{ inputs.commit_message }}
-            - Changed files:
-            ${{ inputs.changed_files }}
-
-            - Changes summary:
-            ${{ inputs.commit_diff }}
-
-            Your task:
-            1. Analyze the changes to understand what functionality was added, modified, or removed
-            2. Check if these changes require documentation updates in apps/docs/
-            3. If documentation updates are needed:
-               - Update relevant documentation files in apps/docs/
-               - Ensure examples are updated if APIs changed
-               - Update any configuration documentation if config options changed
-               - Add new documentation pages if new features were added
-               - Update the changelog or release notes if applicable
-            4. If no documentation updates are needed, skip creating changes
-
-            Guidelines:
-            - Focus only on user-facing changes that need documentation
-            - Keep documentation clear, concise, and helpful
-            - Include code examples where appropriate
-            - Maintain consistent documentation style with existing docs
-            - Don't document internal implementation details unless they affect users
-            - Update navigation/menu files if new pages are added
-
-            Only make changes if the documentation truly needs updating based on the code changes.
-
-      - name: Check if changes were made
-        id: check-changes
-        run: |
-          if git diff --quiet; then
-            echo "has_changes=false" >> $GITHUB_OUTPUT
-          else
-            echo "has_changes=true" >> $GITHUB_OUTPUT
-            git add -A
-            git config --local user.email "github-actions[bot]@users.noreply.github.com"
-            git config --local user.name "github-actions[bot]"
-            git commit -m "docs: auto-update documentation based on changes in next branch
-
-            This PR was automatically generated to update documentation based on recent changes.
-            
-            Original commit: ${{ inputs.commit_message }}
-            
-            Co-authored-by: Claude <claude-assistant@anthropic.com>"
-          fi
-
-      - name: Push changes and create PR
-        if: steps.check-changes.outputs.has_changes == 'true'
-        env:
-          GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-        run: |
-          git push origin ${{ steps.create-branch.outputs.branch_name }}
-
-          # Create PR using GitHub CLI
-          gh pr create \
-            --title "docs: update documentation for recent changes" \
-            --body "## 📚 Documentation Update
-
-            This PR automatically updates documentation based on recent changes merged to the \`next\` branch.
-
-            ### Original Changes
-            **Commit:** ${{ inputs.commit_sha }}
-            **Message:** ${{ inputs.commit_message }}
-            
-            ### Changed Files in Original Commit
-            \`\`\`
-            ${{ inputs.changed_files }}
-            \`\`\`
-
-            ### Documentation Updates
-            This PR includes documentation updates to reflect the changes above. Please review to ensure:
-            - [ ] Documentation accurately reflects the changes
-            - [ ] Examples are correct and working
-            - [ ] No important details are missing
-            - [ ] Style is consistent with existing documentation
-
-            ---
-            *This PR was automatically generated by Claude Code GitHub Action*" \
-            --base next \
-            --head ${{ steps.create-branch.outputs.branch_name }} \
-            --label "documentation" \
-            --label "automated"

.github/workflows/claude-issue-triage.yml

@@ -1,107 +0,0 @@
-name: Claude Issue Triage
-# description: Automatically triage GitHub issues using Claude Code
-
-on:
-  issues:
-    types: [opened]
-
-jobs:
-  triage-issue:
-    runs-on: ubuntu-latest
-    timeout-minutes: 10
-    permissions:
-      contents: read
-      issues: write
-
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v4
-
-      - name: Create triage prompt
-        run: |
-          mkdir -p /tmp/claude-prompts
-          cat > /tmp/claude-prompts/triage-prompt.txt << 'EOF'
-          You're an issue triage assistant for GitHub issues. Your task is to analyze the issue and select appropriate labels from the provided list.
-
-          IMPORTANT: Don't post any comments or messages to the issue. Your only action should be to apply labels.
-
-          Issue Information:
-          - REPO: ${{ github.repository }}
-          - ISSUE_NUMBER: ${{ github.event.issue.number }}
-
-          TASK OVERVIEW:
-
-          1. First, fetch the list of labels available in this repository by running: `gh label list`. Run exactly this command with nothing else.
-
-          2. Next, use the GitHub tools to get context about the issue:
-             - You have access to these tools:
-               - mcp__github__get_issue: Use this to retrieve the current issue's details including title, description, and existing labels
-               - mcp__github__get_issue_comments: Use this to read any discussion or additional context provided in the comments
-               - mcp__github__update_issue: Use this to apply labels to the issue (do not use this for commenting)
-               - mcp__github__search_issues: Use this to find similar issues that might provide context for proper categorization and to identify potential duplicate issues
-               - mcp__github__list_issues: Use this to understand patterns in how other issues are labeled
-             - Start by using mcp__github__get_issue to get the issue details
-
-          3. Analyze the issue content, considering:
-             - The issue title and description
-             - The type of issue (bug report, feature request, question, etc.)
-             - Technical areas mentioned
-             - Severity or priority indicators
-             - User impact
-             - Components affected
-
-          4. Select appropriate labels from the available labels list provided above:
-             - Choose labels that accurately reflect the issue's nature
-             - Be specific but comprehensive
-             - Select priority labels if you can determine urgency (high-priority, med-priority, or low-priority)
-             - Consider platform labels (android, ios) if applicable
-             - If you find similar issues using mcp__github__search_issues, consider using a "duplicate" label if appropriate. Only do so if the issue is a duplicate of another OPEN issue.
-
-          5. Apply the selected labels:
-             - Use mcp__github__update_issue to apply your selected labels
-             - DO NOT post any comments explaining your decision
-             - DO NOT communicate directly with users
-             - If no labels are clearly applicable, do not apply any labels
-
-          IMPORTANT GUIDELINES:
-          - Be thorough in your analysis
-          - Only select labels from the provided list above
-          - DO NOT post any comments to the issue
-          - Your ONLY action should be to apply labels using mcp__github__update_issue
-          - It's okay to not add any labels if none are clearly applicable
-          EOF
-
-      - name: Setup GitHub MCP Server
-        run: |
-          mkdir -p /tmp/mcp-config
-          cat > /tmp/mcp-config/mcp-servers.json << 'EOF'
-          {
-            "mcpServers": {
-              "github": {
-                "command": "docker",
-                "args": [
-                  "run",
-                  "-i",
-                  "--rm",
-                  "-e",
-                  "GITHUB_PERSONAL_ACCESS_TOKEN",
-                  "ghcr.io/github/github-mcp-server:sha-7aced2b"
-                ],
-                "env": {
-                  "GITHUB_PERSONAL_ACCESS_TOKEN": "${{ secrets.GITHUB_TOKEN }}"
-                }
-              }
-            }
-          }
-          EOF
-
-      - name: Run Claude Code for Issue Triage
-        uses: anthropics/claude-code-base-action@beta
-        with:
-          prompt_file: /tmp/claude-prompts/triage-prompt.txt
-          allowed_tools: "Bash(gh label list),mcp__github__get_issue,mcp__github__get_issue_comments,mcp__github__update_issue,mcp__github__search_issues,mcp__github__list_issues"
-          timeout_minutes: "5"
-          anthropic_api_key: ${{ secrets.ANTHROPIC_API_KEY }}
-          mcp_config: /tmp/mcp-config/mcp-servers.json
-          claude_env: |
-            GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}

.github/workflows/claude.yml

@@ -1,36 +0,0 @@
-name: Claude Code
-
-on:
-  issue_comment:
-    types: [created]
-  pull_request_review_comment:
-    types: [created]
-  issues:
-    types: [opened, assigned]
-  pull_request_review:
-    types: [submitted]
-
-jobs:
-  claude:
-    if: |
-      (github.event_name == 'issue_comment' && contains(github.event.comment.body, '@claude')) ||
-      (github.event_name == 'pull_request_review_comment' && contains(github.event.comment.body, '@claude')) ||
-      (github.event_name == 'pull_request_review' && contains(github.event.review.body, '@claude')) ||
-      (github.event_name == 'issues' && (contains(github.event.issue.body, '@claude') || contains(github.event.issue.title, '@claude')))
-    runs-on: ubuntu-latest
-    permissions:
-      contents: read
-      pull-requests: read
-      issues: read
-      id-token: write
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@11bd71901bbe5b1630ceea73d27597364c9af683 # v4
-        with:
-          fetch-depth: 1
-
-      - name: Run Claude Code
-        id: claude
-        uses: anthropics/claude-code-action@beta
-        with:
-          anthropic_api_key: ${{ secrets.ANTHROPIC_API_KEY }}

.github/workflows/extension-ci.yml

@@ -1,140 +0,0 @@
-name: Extension CI
-
-on:
-  push:
-    branches:
-      - main
-      - next
-    paths:
-      - 'apps/extension/**'
-      - '.github/workflows/extension-ci.yml'
-  pull_request:
-    branches:
-      - main
-      - next
-    paths:
-      - 'apps/extension/**'
-      - '.github/workflows/extension-ci.yml'
-
-permissions:
-  contents: read
-
-jobs:
-  setup:
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v4
-        with:
-          fetch-depth: 0
-
-      - uses: actions/setup-node@v4
-        with:
-          node-version: 20
-
-      - name: Cache node_modules
-        uses: actions/cache@v4
-        with:
-          path: |
-            node_modules
-            */*/node_modules
-          key: ${{ runner.os }}-node-${{ hashFiles('**/package-lock.json') }}
-          restore-keys: |
-            ${{ runner.os }}-node-
-
-      - name: Install Monorepo Dependencies
-        run: npm ci
-        timeout-minutes: 5
-
-  typecheck:
-    needs: setup
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v4
-
-      - uses: actions/setup-node@v4
-        with:
-          node-version: 20
-
-
-      - name: Restore node_modules
-        uses: actions/cache@v4
-        with:
-          path: |
-            node_modules
-            */*/node_modules
-          key: ${{ runner.os }}-node-${{ hashFiles('**/package-lock.json') }}
-          restore-keys: |
-            ${{ runner.os }}-node-
-
-      - name: Install if cache miss
-        run: npm ci
-        timeout-minutes: 3
-
-      - name: Type Check Extension
-        working-directory: apps/extension
-        run: npm run check-types
-        env:
-          FORCE_COLOR: 1
-
-  build:
-    needs: setup
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v4
-
-      - uses: actions/setup-node@v4
-        with:
-          node-version: 20
-
-
-      - name: Restore node_modules
-        uses: actions/cache@v4
-        with:
-          path: |
-            node_modules
-            */*/node_modules
-          key: ${{ runner.os }}-node-${{ hashFiles('**/package-lock.json') }}
-          restore-keys: |
-            ${{ runner.os }}-node-
-
-      - name: Install if cache miss
-        run: npm ci
-        timeout-minutes: 3
-
-      - name: Build Extension
-        working-directory: apps/extension
-        run: npm run build
-        env:
-          FORCE_COLOR: 1
-
-      - name: Package Extension
-        working-directory: apps/extension
-        run: npm run package
-        env:
-          FORCE_COLOR: 1
-
-      - name: Verify Package Contents
-        working-directory: apps/extension
-        run: |
-          echo "Checking vsix-build contents..."
-          ls -la vsix-build/
-          echo "Checking dist contents..."
-          ls -la vsix-build/dist/
-          echo "Checking package.json exists..."
-          test -f vsix-build/package.json
-
-      - name: Create VSIX Package (Test)
-        working-directory: apps/extension/vsix-build
-        run: npx vsce package --no-dependencies
-        env:
-          FORCE_COLOR: 1
-
-      - name: Upload Extension Artifact
-        uses: actions/upload-artifact@v4
-        with:
-          name: extension-package
-          path: |
-            apps/extension/vsix-build/*.vsix
-            apps/extension/dist/
-          retention-days: 30
-

.github/workflows/extension-release.yml

@@ -1,110 +0,0 @@
-name: Extension Release
-
-on:
-  push:
-    tags:
-      - "extension@*"
-
-permissions:
-  contents: write
-
-concurrency: extension-release-${{ github.ref }}
-
-jobs:
-  publish-extension:
-    runs-on: ubuntu-latest
-    environment: extension-release
-    steps:
-      - uses: actions/checkout@v4
-
-      - uses: actions/setup-node@v4
-        with:
-          node-version: 20
-
-      - name: Cache node_modules
-        uses: actions/cache@v4
-        with:
-          path: |
-            node_modules
-            */*/node_modules
-          key: ${{ runner.os }}-node-${{ hashFiles('**/package-lock.json') }}
-          restore-keys: |
-            ${{ runner.os }}-node-
-
-      - name: Install Monorepo Dependencies
-        run: npm ci
-        timeout-minutes: 5
-
-      - name: Type Check Extension
-        working-directory: apps/extension
-        run: npm run check-types
-        env:
-          FORCE_COLOR: 1
-
-      - name: Build Extension
-        working-directory: apps/extension
-        run: npm run build
-        env:
-          FORCE_COLOR: 1
-
-      - name: Package Extension
-        working-directory: apps/extension
-        run: npm run package
-        env:
-          FORCE_COLOR: 1
-
-      - name: Create VSIX Package
-        working-directory: apps/extension/vsix-build
-        run: npx vsce package --no-dependencies
-        env:
-          FORCE_COLOR: 1
-
-      - name: Get VSIX filename
-        id: vsix-info
-        working-directory: apps/extension/vsix-build
-        run: |
-          VSIX_FILE=$(find . -maxdepth 1 -name "*.vsix" -type f | head -n1 | xargs basename)
-          if [ -z "$VSIX_FILE" ]; then
-            echo "Error: No VSIX file found"
-            exit 1
-          fi
-          echo "vsix-filename=$VSIX_FILE" >> "$GITHUB_OUTPUT"
-          echo "Found VSIX: $VSIX_FILE"
-
-      - name: Publish to VS Code Marketplace
-        working-directory: apps/extension/vsix-build
-        run: npx vsce publish --packagePath "${{ steps.vsix-info.outputs.vsix-filename }}"
-        env:
-          VSCE_PAT: ${{ secrets.VSCE_PAT }}
-          FORCE_COLOR: 1
-
-      - name: Install Open VSX CLI
-        run: npm install -g ovsx
-
-      - name: Publish to Open VSX Registry
-        working-directory: apps/extension/vsix-build
-        run: ovsx publish "${{ steps.vsix-info.outputs.vsix-filename }}"
-        env:
-          OVSX_PAT: ${{ secrets.OVSX_PAT }}
-          FORCE_COLOR: 1
-
-      - name: Upload Build Artifacts
-        uses: actions/upload-artifact@v4
-        with:
-          name: extension-release-${{ github.ref_name }}
-          path: |
-            apps/extension/vsix-build/*.vsix
-            apps/extension/dist/
-          retention-days: 90
-
-  notify-success:
-    needs: publish-extension
-    if: success()
-    runs-on: ubuntu-latest
-    steps:
-      - name: Success Notification
-        run: |
-          echo "🎉 Extension ${{ github.ref_name }} successfully published!"
-          echo "📦 Available on VS Code Marketplace"
-          echo "🌍 Available on Open VSX Registry"
-          echo "🏷️ GitHub release created: ${{ github.ref_name }}"

.github/workflows/log-issue-events.yml

@@ -1,176 +0,0 @@
-name: Log GitHub Issue Events
-
-on:
-  issues:
-    types: [opened, closed]
-
-jobs:
-  log-issue-created:
-    if: github.event.action == 'opened'
-    runs-on: ubuntu-latest
-    timeout-minutes: 5
-    permissions:
-      contents: read
-      issues: read
-
-    steps:
-      - name: Log issue creation to Statsig
-        env:
-          STATSIG_API_KEY: ${{ secrets.STATSIG_API_KEY }}
-        run: |
-          ISSUE_NUMBER=${{ github.event.issue.number }}
-          REPO=${{ github.repository }}
-          ISSUE_TITLE=$(echo '${{ github.event.issue.title }}' | sed "s/'/'\\\\''/g")
-          AUTHOR="${{ github.event.issue.user.login }}"
-          CREATED_AT="${{ github.event.issue.created_at }}"
-
-          if [ -z "$STATSIG_API_KEY" ]; then
-            echo "STATSIG_API_KEY not found, skipping Statsig logging"
-            exit 0
-          fi
-
-          # Prepare the event payload
-          EVENT_PAYLOAD=$(jq -n \
-            --arg issue_number "$ISSUE_NUMBER" \
-            --arg repo "$REPO" \
-            --arg title "$ISSUE_TITLE" \
-            --arg author "$AUTHOR" \
-            --arg created_at "$CREATED_AT" \
-            '{
-              events: [{
-                eventName: "github_issue_created",
-                value: 1,
-                metadata: {
-                  repository: $repo,
-                  issue_number: ($issue_number | tonumber),
-                  issue_title: $title,
-                  issue_author: $author,
-                  created_at: $created_at
-                },
-                time: (now | floor | tostring)
-              }]
-            }')
-
-          # Send to Statsig API
-          echo "Logging issue creation to Statsig for issue #${ISSUE_NUMBER}"
-
-          RESPONSE=$(curl -s -w "\n%{http_code}" -X POST https://events.statsigapi.net/v1/log_event \
-            -H "Content-Type: application/json" \
-            -H "STATSIG-API-KEY: ${STATSIG_API_KEY}" \
-            -d "$EVENT_PAYLOAD")
-
-          HTTP_CODE=$(echo "$RESPONSE" | tail -n1)
-          BODY=$(echo "$RESPONSE" | head -n-1)
-
-          if [ "$HTTP_CODE" -eq 200 ] || [ "$HTTP_CODE" -eq 202 ]; then
-            echo "Successfully logged issue creation for issue #${ISSUE_NUMBER}"
-          else
-            echo "Failed to log issue creation for issue #${ISSUE_NUMBER}. HTTP ${HTTP_CODE}: ${BODY}"
-          fi
-
-  log-issue-closed:
-    if: github.event.action == 'closed'
-    runs-on: ubuntu-latest
-    timeout-minutes: 5
-    permissions:
-      contents: read
-      issues: read
-
-    steps:
-      - name: Log issue closure to Statsig
-        env:
-          STATSIG_API_KEY: ${{ secrets.STATSIG_API_KEY }}
-          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-        run: |
-          ISSUE_NUMBER=${{ github.event.issue.number }}
-          REPO=${{ github.repository }}
-          ISSUE_TITLE=$(echo '${{ github.event.issue.title }}' | sed "s/'/'\\\\''/g")
-          CLOSED_BY="${{ github.event.issue.closed_by.login }}"
-          CLOSED_AT="${{ github.event.issue.closed_at }}"
-          STATE_REASON="${{ github.event.issue.state_reason }}"
-
-          if [ -z "$STATSIG_API_KEY" ]; then
-            echo "STATSIG_API_KEY not found, skipping Statsig logging"
-            exit 0
-          fi
-
-          # Get additional issue data via GitHub API
-          echo "Fetching additional issue data for #${ISSUE_NUMBER}"
-          ISSUE_DATA=$(curl -s -H "Authorization: token ${GITHUB_TOKEN}" \
-            -H "Accept: application/vnd.github.v3+json" \
-            "https://api.github.com/repos/${REPO}/issues/${ISSUE_NUMBER}")
-
-          COMMENTS_COUNT=$(echo "$ISSUE_DATA" | jq -r '.comments')
-
-          # Get reactions data
-          REACTIONS_DATA=$(curl -s -H "Authorization: token ${GITHUB_TOKEN}" \
-            -H "Accept: application/vnd.github.v3+json" \
-            "https://api.github.com/repos/${REPO}/issues/${ISSUE_NUMBER}/reactions")
-
-          REACTIONS_COUNT=$(echo "$REACTIONS_DATA" | jq '. | length')
-
-          # Check if issue was closed automatically (by checking if closed_by is a bot)
-          CLOSED_AUTOMATICALLY="false"
-          if [[ "$CLOSED_BY" == *"[bot]"* ]]; then
-            CLOSED_AUTOMATICALLY="true"
-          fi
-
-          # Check if closed as duplicate by state_reason
-          CLOSED_AS_DUPLICATE="false"
-          if [ "$STATE_REASON" = "duplicate" ]; then
-            CLOSED_AS_DUPLICATE="true"
-          fi
-
-          # Prepare the event payload
-          EVENT_PAYLOAD=$(jq -n \
-            --arg issue_number "$ISSUE_NUMBER" \
-            --arg repo "$REPO" \
-            --arg title "$ISSUE_TITLE" \
-            --arg closed_by "$CLOSED_BY" \
-            --arg closed_at "$CLOSED_AT" \
-            --arg state_reason "$STATE_REASON" \
-            --arg comments_count "$COMMENTS_COUNT" \
-            --arg reactions_count "$REACTIONS_COUNT" \
-            --arg closed_automatically "$CLOSED_AUTOMATICALLY" \
-            --arg closed_as_duplicate "$CLOSED_AS_DUPLICATE" \
-            '{
-              events: [{
-                eventName: "github_issue_closed",
-                value: 1,
-                metadata: {
-                  repository: $repo,
-                  issue_number: ($issue_number | tonumber),
-                  issue_title: $title,
-                  closed_by: $closed_by,
-                  closed_at: $closed_at,
-                  state_reason: $state_reason,
-                  comments_count: ($comments_count | tonumber),
-                  reactions_count: ($reactions_count | tonumber),
-                  closed_automatically: ($closed_automatically | test("true")),
-                  closed_as_duplicate: ($closed_as_duplicate | test("true"))
-                },
-                time: (now | floor | tostring)
-              }]
-            }')
-
-          # Send to Statsig API
-          echo "Logging issue closure to Statsig for issue #${ISSUE_NUMBER}"
-
-          RESPONSE=$(curl -s -w "\n%{http_code}" -X POST https://events.statsigapi.net/v1/log_event \
-            -H "Content-Type: application/json" \
-            -H "STATSIG-API-KEY: ${STATSIG_API_KEY}" \
-            -d "$EVENT_PAYLOAD")
-
-          HTTP_CODE=$(echo "$RESPONSE" | tail -n1)
-          BODY=$(echo "$RESPONSE" | head -n-1)
-
-          if [ "$HTTP_CODE" -eq 200 ] || [ "$HTTP_CODE" -eq 202 ]; then
-            echo "Successfully logged issue closure for issue #${ISSUE_NUMBER}"
-            echo "Closed by: $CLOSED_BY"
-            echo "Comments: $COMMENTS_COUNT"
-            echo "Reactions: $REACTIONS_COUNT"
-            echo "Closed automatically: $CLOSED_AUTOMATICALLY"
-            echo "Closed as duplicate: $CLOSED_AS_DUPLICATE"
-          else
-            echo "Failed to log issue closure for issue #${ISSUE_NUMBER}. HTTP ${HTTP_CODE}: ${BODY}"
-          fi

.github/workflows/pre-release.yml

@@ -3,13 +3,11 @@ name: Pre-Release (RC)
 on:
   workflow_dispatch: # Allows manual triggering from GitHub UI/API
 
-concurrency: pre-release-${{ github.ref_name }}
+concurrency: pre-release-${{ github.ref }}
+
 jobs:
   rc:
     runs-on: ubuntu-latest
-    # Only allow pre-releases on non-main branches
-    if: github.ref != 'refs/heads/main'
-    environment: extension-release
     steps:
       - uses: actions/checkout@v4
         with:
@@ -36,26 +34,9 @@ jobs:
 
       - name: Enter RC mode (if not already in RC mode)
         run: |
-          # Check if we're in pre-release mode with the "rc" tag
-          if [ -f .changeset/pre.json ]; then
-            MODE=$(jq -r '.mode' .changeset/pre.json 2>/dev/null || echo '')
-            TAG=$(jq -r '.tag' .changeset/pre.json 2>/dev/null || echo '')
-            
-            if [ "$MODE" = "exit" ]; then
-              echo "Pre-release mode is in 'exit' state, re-entering RC mode..."
-              npx changeset pre enter rc
-            elif [ "$MODE" = "pre" ] && [ "$TAG" != "rc" ]; then
-              echo "In pre-release mode but with wrong tag ($TAG), switching to RC..."
-              npx changeset pre exit
-              npx changeset pre enter rc
-            elif [ "$MODE" = "pre" ] && [ "$TAG" = "rc" ]; then
-              echo "Already in RC pre-release mode"
-            else
-              echo "Unknown mode state: $MODE, entering RC mode..."
-              npx changeset pre enter rc
-            fi
-          else
-            echo "No pre.json found, entering RC mode..."
+          # ensure we’re in the right pre-mode (tag "rc")
+          if [ ! -f .changeset/pre.json ] \
+            || [ "$(jq -r '.tag' .changeset/pre.json 2>/dev/null || echo '')" != "rc" ]; then
             npx changeset pre enter rc
           fi
 
@@ -65,24 +46,10 @@ jobs:
           GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
           NPM_TOKEN: ${{ secrets.NPM_TOKEN }}
 
-      - name: Run format
-        run: npm run format
-        env:
-          FORCE_COLOR: 1
-
-      - name: Build packages
-        run: npm run turbo:build
-        env:
-          NODE_ENV: production
-          FORCE_COLOR: 1
-          TM_PUBLIC_BASE_DOMAIN: ${{ secrets.TM_PUBLIC_BASE_DOMAIN }}
-          TM_PUBLIC_SUPABASE_URL: ${{ secrets.TM_PUBLIC_SUPABASE_URL }}
-          TM_PUBLIC_SUPABASE_ANON_KEY: ${{ secrets.TM_PUBLIC_SUPABASE_ANON_KEY }}
-
       - name: Create Release Candidate Pull Request or Publish Release Candidate to npm
         uses: changesets/action@v1
         with:
-          publish: npx changeset publish
+          publish: npm run release
         env:
           GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
           NPM_TOKEN: ${{ secrets.NPM_TOKEN }}

.github/workflows/release-check.yml

@@ -1,21 +0,0 @@
-name: Release Check
-
-on:
-  pull_request:
-    branches:
-      - main
-
-concurrency:
-  group: release-check-${{ github.head_ref }}
-  cancel-in-progress: true
-
-jobs:
-  check-release-mode:
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v4
-        with:
-          fetch-depth: 0
-
-      - name: Check release mode
-        run: node ./.github/scripts/check-pre-release-mode.mjs "pull_request"

.github/workflows/release.yml

@@ -6,11 +6,6 @@ on:
 
 concurrency: ${{ github.workflow }}-${{ github.ref }}
 
-permissions:
-  contents: write
-  pull-requests: write
-  id-token: write
-
 jobs:
   release:
     runs-on: ubuntu-latest
@@ -22,7 +17,7 @@ jobs:
       - uses: actions/setup-node@v4
         with:
           node-version: 20
-          cache: "npm"
+          cache: 'npm'
 
       - name: Cache node_modules
         uses: actions/cache@v4
@@ -38,22 +33,13 @@ jobs:
         run: npm ci
         timeout-minutes: 2
 
-      - name: Check pre-release mode
-        run: node ./.github/scripts/check-pre-release-mode.mjs "main"
-
-      - name: Build packages
-        run: npm run turbo:build
-        env:
-          NODE_ENV: production
-          FORCE_COLOR: 1
-          TM_PUBLIC_BASE_DOMAIN: ${{ secrets.TM_PUBLIC_BASE_DOMAIN }}
-          TM_PUBLIC_SUPABASE_URL: ${{ secrets.TM_PUBLIC_SUPABASE_URL }}
-          TM_PUBLIC_SUPABASE_ANON_KEY: ${{ secrets.TM_PUBLIC_SUPABASE_ANON_KEY }}
+      - name: Exit pre-release mode (safety check)
+        run: npx changeset pre exit || true
 
       - name: Create Release Pull Request or Publish to npm
         uses: changesets/action@v1
         with:
-          publish: node ./.github/scripts/release.mjs
+          publish: npm run release
         env:
           GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
           NPM_TOKEN: ${{ secrets.NPM_TOKEN }}

.github/workflows/weekly-metrics-discord.yml

@@ -1,108 +0,0 @@
-name: Weekly Metrics to Discord
-# description: Sends weekly metrics summary to Discord channel
-
-on:
-  schedule:
-    - cron: "0 9 * * 1" # Every Monday at 9 AM
-  workflow_dispatch:
-
-permissions:
-  contents: read
-  issues: read
-  pull-requests: read
-
-jobs:
-  weekly-metrics:
-    runs-on: ubuntu-latest
-    env:
-      DISCORD_WEBHOOK: ${{ secrets.DISCORD_METRICS_WEBHOOK }}
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v4
-
-      - name: Setup Node.js
-        uses: actions/setup-node@v4
-        with:
-          node-version: '20'
-
-      - name: Get dates for last 14 days
-        run: |
-          set -Eeuo pipefail
-          # Last 14 days
-          first_day=$(date -d "14 days ago" +%Y-%m-%d)
-          last_day=$(date +%Y-%m-%d)
-
-          echo "first_day=$first_day" >> $GITHUB_ENV
-          echo "last_day=$last_day" >> $GITHUB_ENV
-          echo "week_of=$(date -d '7 days ago' +'Week of %B %d, %Y')" >> $GITHUB_ENV
-          echo "date_range=Past 14 days ($first_day to $last_day)" >> $GITHUB_ENV
-
-      - name: Generate issue metrics
-        uses: github/issue-metrics@v3
-        env:
-          GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-          SEARCH_QUERY: "repo:${{ github.repository }} is:issue created:${{ env.first_day }}..${{ env.last_day }}"
-          HIDE_TIME_TO_ANSWER: true
-          HIDE_LABEL_METRICS: false
-          OUTPUT_FILE: issue_metrics.md
-
-      - name: Generate PR created metrics
-        uses: github/issue-metrics@v3
-        env:
-          GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-          SEARCH_QUERY: "repo:${{ github.repository }} is:pr created:${{ env.first_day }}..${{ env.last_day }}"
-          OUTPUT_FILE: pr_created_metrics.md
-
-      - name: Generate PR merged metrics
-        uses: github/issue-metrics@v3
-        env:
-          GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-          SEARCH_QUERY: "repo:${{ github.repository }} is:pr is:merged merged:${{ env.first_day }}..${{ env.last_day }}"
-          OUTPUT_FILE: pr_merged_metrics.md
-
-      - name: Debug generated metrics
-        run: |
-          set -Eeuo pipefail
-          echo "Listing markdown files in workspace:"
-          ls -la *.md || true
-          for f in issue_metrics.md pr_created_metrics.md pr_merged_metrics.md; do
-            if [ -f "$f" ]; then
-              echo "== $f (first 10 lines) =="
-              head -n 10 "$f"
-            else
-              echo "Missing $f"
-            fi
-          done
-
-      - name: Parse metrics
-        id: metrics
-        run: node .github/scripts/parse-metrics.mjs
-
-      - name: Send to Discord
-        uses: sarisia/actions-status-discord@v1
-        if: env.DISCORD_WEBHOOK != ''
-        with:
-          webhook: ${{ env.DISCORD_WEBHOOK }}
-          status: Success
-          title: "📊 Weekly Metrics Report"
-          description: |
-            **${{ env.week_of }}**
-            *${{ env.date_range }}*
-
-            **🎯 Issues**
-            • Created: ${{ steps.metrics.outputs.issues_created }}
-            • Closed: ${{ steps.metrics.outputs.issues_closed }}
-            • Avg Response Time: ${{ steps.metrics.outputs.issue_avg_first_response }}
-            • Avg Time to Close: ${{ steps.metrics.outputs.issue_avg_time_to_close }}
-
-            **🔀 Pull Requests**
-            • Created: ${{ steps.metrics.outputs.prs_created }}
-            • Merged: ${{ steps.metrics.outputs.prs_merged }}
-            • Avg Response Time: ${{ steps.metrics.outputs.pr_avg_first_response }}
-            • Avg Time to Merge: ${{ steps.metrics.outputs.pr_avg_merge_time }}
-
-            **📈 Visual Analytics**
-            https://repobeats.axiom.co/api/embed/b439f28f0ab5bd7a2da19505355693cd2c55bfd4.svg
-          color: 0x58AFFF
-          username: Task Master Metrics Bot
-          avatar_url: https://raw.githubusercontent.com/eyaltoledano/claude-task-master/main/images/logo.png

.gitignore

@@ -87,13 +87,3 @@ dev-debug.log
 *.njsproj
 *.sln
 *.sw?
-
-# VS Code extension test files
-.vscode-test/
-apps/extension/.vscode-test/
-
-# apps/extension
-apps/extension/vsix-build/
-
-# turbo
-.turbo

.kiro/settings/mcp.json

@@ -2,7 +2,7 @@
 	"mcpServers": {
 		"task-master-ai": {
 			"command": "npx",
-			"args": ["-y", "task-master-ai"],
+			"args": ["-y", "--package=task-master-ai", "task-master-ai"],
 			"env": {
 				"ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
 				"PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",

.manypkg.json

@@ -1,6 +0,0 @@
-{
-	"$schema": "https://unpkg.com/@manypkg/get-packages@1.1.3/schema.json",
-	"defaultBranch": "main",
-	"ignoredRules": ["ROOT_HAS_DEPENDENCIES", "INTERNAL_MISMATCH"],
-	"ignoredPackages": ["@tm/core", "@tm/cli", "@tm/build-config"]
-}

.taskmaster/CLAUDE.md

@@ -85,7 +85,7 @@ Task Master provides an MCP server that Claude Code can connect to. Configure in
   "mcpServers": {
     "task-master-ai": {
       "command": "npx",
-      "args": ["-y", "task-master-ai"],
+      "args": ["-y", "--package=task-master-ai", "task-master-ai"],
       "env": {
         "ANTHROPIC_API_KEY": "your_key_here",
         "PERPLEXITY_API_KEY": "your_key_here",

.taskmaster/config.json

@@ -2,8 +2,8 @@
 	"models": {
 		"main": {
 			"provider": "anthropic",
-			"modelId": "claude-sonnet-4-20250514",
-			"maxTokens": 64000,
+			"modelId": "claude-3-7-sonnet-20250219",
+			"maxTokens": 120000,
 			"temperature": 0.2
 		},
 		"research": {
@@ -14,8 +14,8 @@
 		},
 		"fallback": {
 			"provider": "anthropic",
-			"modelId": "claude-3-7-sonnet-20250219",
-			"maxTokens": 120000,
+			"modelId": "claude-3-5-sonnet-20241022",
+			"maxTokens": 8192,
 			"temperature": 0.2
 		}
 	},
@@ -29,15 +29,9 @@
 		"ollamaBaseURL": "http://localhost:11434/api",
 		"bedrockBaseURL": "https://bedrock.us-east-1.amazonaws.com",
 		"responseLanguage": "English",
-		"enableCodebaseAnalysis": true,
 		"userId": "1234567890",
 		"azureBaseURL": "https://your-endpoint.azure.com/",
 		"defaultTag": "master"
 	},
-	"claudeCode": {},
-	"grokCli": {
-		"timeout": 120000,
-		"workingDirectory": null,
-		"defaultModel": "grok-4-latest"
-	}
+	"claudeCode": {}
 }

.taskmaster/docs/MIGRATION-ROADMAP.md

@@ -1,188 +0,0 @@
-# Task Master Migration Roadmap
-
-## Overview
-Gradual migration from scripts-based architecture to a clean monorepo with separated concerns.
-
-## Architecture Vision
-
-```
-┌─────────────────────────────────────────────────┐
-│                  User Interfaces                 │
-├──────────┬──────────┬──────────┬────────────────┤
-│  @tm/cli │ @tm/mcp  │ @tm/ext  │  @tm/web      │
-│  (CLI)   │  (MCP)   │  (VSCode)│  (Future)     │
-└──────────┴──────────┴──────────┴────────────────┘
-                    │
-                    ▼
-        ┌──────────────────────┐
-        │      @tm/core        │
-        │  (Business Logic)    │
-        └──────────────────────┘
-```
-
-## Migration Phases
-
-### Phase 1: Core Extraction ✅ (In Progress)
-**Goal**: Move all business logic to @tm/core
-
-- [x] Create @tm/core package structure
-- [x] Move types and interfaces
-- [x] Implement TaskMasterCore facade
-- [x] Move storage adapters
-- [x] Move task services
-- [ ] Move AI providers
-- [ ] Move parser logic
-- [ ] Complete test coverage
-
-### Phase 2: CLI Package Creation 🚧 (Started)
-**Goal**: Create @tm/cli as a thin presentation layer
-
-- [x] Create @tm/cli package structure
-- [x] Implement Command interface pattern
-- [x] Create CommandRegistry
-- [x] Build legacy bridge/adapter
-- [x] Migrate list-tasks command
-- [ ] Migrate remaining commands one by one
-- [ ] Remove UI logic from core
-
-### Phase 3: Transitional Integration
-**Goal**: Use new packages in existing scripts without breaking changes
-
-```javascript
-// scripts/modules/commands.js gradually adopts new commands
-import { ListTasksCommand } from '@tm/cli';
-const listCommand = new ListTasksCommand();
-
-// Old interface remains the same
-programInstance
-  .command('list')
-  .action(async (options) => {
-    // Use new command internally
-    const result = await listCommand.execute(convertOptions(options));
-  });
-```
-
-### Phase 4: MCP Package
-**Goal**: Separate MCP server as its own package
-
-- [ ] Create @tm/mcp package
-- [ ] Move MCP server code
-- [ ] Use @tm/core for all logic
-- [ ] MCP becomes a thin RPC layer
-
-### Phase 5: Complete Migration
-**Goal**: Remove old scripts, pure monorepo
-
-- [ ] All commands migrated to @tm/cli
-- [ ] Remove scripts/modules/task-manager/*
-- [ ] Remove scripts/modules/commands.js
-- [ ] Update bin/task-master.js to use @tm/cli
-- [ ] Clean up dependencies
-
-## Current Transitional Strategy
-
-### 1. Adapter Pattern (commands-adapter.js)
-```javascript
-// Checks if new CLI is available and uses it
-// Falls back to legacy implementation if not
-export async function listTasksAdapter(...args) {
-  if (cliAvailable) {
-    return useNewImplementation(...args);
-  }
-  return useLegacyImplementation(...args);
-}
-```
-
-### 2. Command Bridge Pattern
-```javascript
-// Allows new commands to work in old code
-const bridge = new CommandBridge(new ListTasksCommand());
-const data = await bridge.run(legacyOptions); // Legacy style
-const result = await bridge.execute(newOptions); // New style
-```
-
-### 3. Gradual File Migration
-Instead of big-bang refactoring:
-1. Create new implementation in @tm/cli
-2. Add adapter in commands-adapter.js
-3. Update commands.js to use adapter
-4. Test both paths work
-5. Eventually remove adapter when all migrated
-
-## Benefits of This Approach
-
-1. **No Breaking Changes**: Existing CLI continues to work
-2. **Incremental PRs**: Each command can be migrated separately
-3. **Parallel Development**: New features can use new architecture
-4. **Easy Rollback**: Can disable new implementation if issues
-5. **Clear Separation**: Business logic (core) vs presentation (cli/mcp/etc)
-
-## Example PR Sequence
-
-### PR 1: Core Package Setup ✅
-- Create @tm/core
-- Move types and interfaces
-- Basic TaskMasterCore implementation
-
-### PR 2: CLI Package Foundation ✅
-- Create @tm/cli
-- Command interface and registry
-- Legacy bridge utilities
-
-### PR 3: First Command Migration
-- Migrate list-tasks to new system
-- Add adapter in scripts
-- Test both implementations
-
-### PR 4-N: Migrate Commands One by One
-- Each PR migrates 1-2 related commands
-- Small, reviewable changes
-- Continuous delivery
-
-### Final PR: Cleanup
-- Remove legacy implementations
-- Remove adapters
-- Update documentation
-
-## Testing Strategy
-
-### Dual Testing During Migration
-```javascript
-describe('List Tasks', () => {
-  it('works with legacy implementation', async () => {
-    // Force legacy
-    const result = await legacyListTasks(...);
-    expect(result).toBeDefined();
-  });
-
-  it('works with new implementation', async () => {
-    // Force new
-    const command = new ListTasksCommand();
-    const result = await command.execute(...);
-    expect(result.success).toBe(true);
-  });
-
-  it('adapter chooses correctly', async () => {
-    // Let adapter decide
-    const result = await listTasksAdapter(...);
-    expect(result).toBeDefined();
-  });
-});
-```
-
-## Success Metrics
-
-- [ ] All commands migrated without breaking changes
-- [ ] Test coverage maintained or improved
-- [ ] Performance maintained or improved
-- [ ] Cleaner, more maintainable codebase
-- [ ] Easy to add new interfaces (web, desktop, etc.)
-
-## Notes for Contributors
-
-1. **Keep PRs Small**: Migrate one command at a time
-2. **Test Both Paths**: Ensure legacy and new both work
-3. **Document Changes**: Update this roadmap as you go
-4. **Communicate**: Discuss in PRs if architecture needs adjustment
-
-This is a living document - update as the migration progresses!

.taskmaster/docs/prd-tm-start.txt

@@ -1,91 +0,0 @@
-<context>
-# Overview
-Add a new CLI command: `task-master start <task_id>` (alias: `tm start <task_id>`). This command hard-codes `claude-code` as the executor, fetches task details, builds a standardized prompt, runs claude-code, shows the result, checks for git changes, and auto-marks the task as done if successful.
-
-We follow the Commander class pattern, reuse task retrieval from `show` command flow. Extremely minimal for 1-hour hackathon timeline.
-
-# Core Features
-- `start` command (Commander class style) 
-- Hard-coded executor: `claude-code`
-- Standardized prompt designed for minimal changes following existing patterns
-- Shows claude-code output (no streaming)
-- Git status check for success detection
-- Auto-mark task done if successful
-
-# User Experience
-```
-task-master start 12
-```
-1) Fetches Task #12 details
-2) Builds standardized prompt with task context
-3) Runs claude-code with the prompt
-4) Shows output
-5) Checks git status for changes
-6) Auto-marks task done if changes detected
-</context>
-
-<PRD>
-# Technical Architecture
-
-- Command pattern:
-  - Create `apps/cli/src/commands/start.command.ts` modeled on [list.command.ts](mdc:apps/cli/src/commands/list.command.ts) and task lookup from [show.command.ts](mdc:apps/cli/src/commands/show.command.ts)
-
-- Task retrieval:
-  - Use `@tm/core` via `createTaskMasterCore` to get task by ID
-  - Extract: id, title, description, details
-
-- Executor (ultra-simple approach):
-  - Execute `claude "full prompt here"` command directly
-  - The prompt tells Claude to first run `tm show <task_id>` to get task details
-  - Then tells Claude to implement the code changes
-  - This opens Claude CLI interface naturally in the current terminal
-  - No subprocess management needed - just execute the command
-
-- Execution flow:
-  1) Validate `<task_id>` exists; exit with error if not
-  2) Build standardized prompt that includes instructions to run `tm show <task_id>`
-  3) Execute `claude "prompt"` command directly in terminal
-  4) Claude CLI opens, runs `tm show`, then implements changes
-  5) After Claude session ends, run `git status --porcelain` to detect changes
-  6) If changes detected, auto-run `task-master set-status --id=<task_id> --status=done`
-
-- Success criteria:
-  - Success = exit code 0 AND git shows modified/created files
-  - Print changed file paths; warn if no changes detected
-
-# Development Roadmap
-
-MVP (ship in ~1 hour):
-1) Implement `start.command.ts` (Commander class), parse `<task_id>`
-2) Validate task exists via tm-core 
-3) Build prompt that tells Claude to run `tm show <task_id>` then implement
-4) Execute `claude "prompt"` command, then check git status and auto-mark done
-
-# Risks and Mitigations
-- Executor availability: Error clearly if `claude-code` provider fails
-- False success: Git-change heuristic acceptable for hackathon MVP
-
-# Appendix
-
-**Standardized Prompt Template:**
-```
-You are an AI coding assistant with access to this repository's codebase.
-
-First, run this command to get the task details:
-tm show <task_id>
-
-Then implement the task with these requirements:
-- Make the SMALLEST number of code changes possible
-- Follow ALL existing patterns in the codebase (you have access to analyze the code)
-- Do NOT over-engineer the solution
-- Use existing files/functions/patterns wherever possible
-- When complete, print: COMPLETED: <brief summary of changes>
-
-Begin by running tm show <task_id> to understand what needs to be implemented.
-```
-
-**Key References:**
-- [list.command.ts](mdc:apps/cli/src/commands/list.command.ts) - Command structure
-- [show.command.ts](mdc:apps/cli/src/commands/show.command.ts) - Task validation
-- Node.js `child_process.exec()` - For executing `claude "prompt"` command
-</PRD>

.taskmaster/docs/research/2025-08-01_do-we-need-to-add-new-commands-or-can-we-just-weap.md

@@ -1,153 +0,0 @@
----
-title: Research Session
-query: "do we need to add new commands or can we just weaponize the gh cli tool"
-date: 2025-08-01
-time: 2:27:52 p.m.
-timestamp: 2025-08-01T11:27:52.249Z
-exchanges: 3
----
-
-# Research Session
-
-## Initial Query
-
-**Question:** do we need to add new commands or can we just weaponize the gh cli tool
-
-**Response:**
-
-For the implementation of the `task-master git` command suite to automate git workflows (Task 97), it is possible to leverage the existing **GitHub CLI (`gh`) tool** rather than creating entirely new git commands from scratch. The GitHub CLI provides a rich set of commands that cover many GitHub-related operations such as branch management, pull request handling, workflow triggering, and release management, which can be scripted and integrated into your CLI tool[1][2][3][4].
-
-### Key Points Supporting Weaponizing GitHub CLI:
-
-- **Comprehensive GitHub Operations**: The `gh` CLI supports creating branches, managing pull requests, releases, tags, and even triggering and monitoring GitHub Actions workflows. This aligns well with the requirements of automated branch management, commit generation, and PR description generation in Task 97[1][3].
-
-- **Scripting and Automation Friendly**: GitHub CLI commands can be scripted and integrated into custom workflows or CLI tools. You can create aliases or wrap `gh` commands inside your own CLI commands to provide a seamless user experience while relying on the battle-tested GitHub CLI for underlying operations[1][3].
-
-- **Authentication and Permissions**: `gh` uses environment variables like `GH_TOKEN` or `GITHUB_TOKEN` for authentication, which can be securely managed in CI/CD pipelines or local environments. This simplifies integration without needing to implement custom authentication logic[3][4].
-
-- **Extensibility**: If some specific git workflow features are not directly supported by `gh`, you can extend it with custom scripts or combine it with native git commands. This hybrid approach reduces the need to reinvent core git operations while allowing customization[1].
-
-### Considerations for Your Project:
-
-- Since Task 97 requires **automated branch management** (branch creation, validation, switching, cleanup), **intelligent commit generation**, and **PR description generation**, you can implement these by invoking `gh` commands programmatically within your `task-master git` commands.
-
-- For example, branch creation and switching can be done with native git commands wrapped in your CLI, while PR creation and management can be handled via `gh pr create`, `gh pr merge`, etc.
-
-- You may still need to implement some **custom logic** for commit type detection, branch name validation, and PR description generation based on your task metadata, but the underlying git and GitHub operations can be delegated to `gh`.
-
-- This approach aligns with your existing CLI foundation (Task 2) and leverages a well-supported tool, reducing development effort and increasing reliability.
-
-### Summary
-
-You **do not necessarily need to add entirely new git commands** for Task 97. Instead, you can **weaponize the GitHub CLI (`gh`) tool** by wrapping and scripting its commands within your `task-master git` command suite. This will allow you to automate git workflows efficiently, maintain consistency, and leverage GitHub’s API capabilities without reinventing the wheel[1][2][3][4].
-
-If there are gaps in `gh` functionality for your specific workflow needs, you can supplement with native git commands or custom scripts, but the core git and GitHub operations should be handled by `gh` for best results.
-
----
-
-## Follow-up 1
-
-**Question:** how does this relate to git worktrees? i hear that they get super complicated when trying to implement them.
-
-**Response:**
-
-Git worktrees allow you to have multiple working directories attached to the same Git repository, each checked out to different branches simultaneously. This enables parallel development workflows without the overhead of cloning the repository multiple times or constantly switching branches in a single working directory[2][3].
-
-However, **implementing or managing git worktrees can get complicated** for several reasons:
-
-- **Complexity for users and tooling:** Managing multiple active worktrees requires careful tracking of which directory corresponds to which branch. This can be confusing and error-prone, especially for novices or when many worktrees are in use simultaneously. Mistakes like committing to the wrong branch or working in the wrong directory are common risks[1].
-
-- **Maintenance overhead:** Worktrees accumulate over time and need to be pruned or cleaned up regularly (`git worktree prune`) to avoid clutter and potential confusion. This adds an extra maintenance step to the workflow[1].
-
-- **Syncing and update challenges:** Each worktree is a separate checkout and can become outdated if not regularly updated from the main repository. This can lead to merge conflicts or redundant work if branches diverge significantly[1].
-
-- **Tooling and integration limitations:** Not all Git tools, scripts, or GUIs fully support worktrees or are optimized for them. This can cause inconsistencies or require additional custom tooling to manage worktrees effectively[1].
-
-- **Performance considerations:** Managing multiple worktrees simultaneously can have performance implications, especially in very large repositories, due to the overhead of maintaining multiple checkouts and metadata[1].
-
-In the context of your project, which involves automating git workflows and possibly wrapping or extending git/GitHub CLI commands, these complexities imply:
-
-- If you consider supporting git worktrees in your `task-master git` command suite, you will need to handle the complexity of managing multiple directories and branches carefully.
-
-- You might need to implement additional logic or tooling to track and manage worktrees, avoid user confusion, and ensure synchronization between them.
-
-- Since your project already plans to leverage the GitHub CLI (`gh`) and native git commands, you could integrate worktree commands (`git worktree add`, `git worktree remove`, `git worktree list`) but should be prepared for the added complexity in workflow management and user documentation.
-
-- Custom wrappers or managers (like the one described in [3]) can help reduce friction by automating worktree creation, switching, and cleanup, which might be a useful approach to consider.
-
-Overall, **git worktrees provide powerful parallel branch management but introduce complexity in implementation and user experience** that must be carefully managed through tooling, automation, and clear documentation[1][3][4].
-
----
-
-**Summary Table of Git Worktree Challenges and Considerations**
-
-| Aspect                  | Description                                                                                   | Implication for Project                                  |
-|-------------------------|-----------------------------------------------------------------------------------------------|----------------------------------------------------------|
-| User Complexity         | Confusing multiple directories and branches                                                  | Need clear UI/UX and safeguards                          |
-| Maintenance Overhead    | Requires pruning and cleanup of stale worktrees                                              | Automate cleanup or provide commands                     |
-| Syncing Issues         | Worktrees can become outdated or diverge                                                     | Implement update checks and sync workflows               |
-| Tooling Support        | Limited support in some Git tools and GUIs                                                  | May require custom tooling or wrappers                   |
-| Performance            | Overhead in large repos with many worktrees                                                 | Monitor and optimize performance                          |
-| Workflow Automation    | Manual worktree management is tedious                                                       | Build custom managers or wrappers to simplify usage     |
-
----
-
-Given your project’s focus on automating git workflows and leveraging existing CLI tools, **implementing git worktree support is feasible but will require careful design to handle these complexities effectively**. You may want to start with basic worktree commands and incrementally add automation and safeguards as needed.
-
----
-
-## Follow-up 2
-
-**Question:** since we already have a way to have separated task lists per branch, couldn't we do the same thing for worktrees? each taskmaster list (tag) would have its own worktree based on the name of the tag?
-
-**Response:**
-
-Yes, you can apply a similar approach used for separated task lists per branch to git worktrees by associating each taskmaster list (tag) with its own git worktree named after the tag. This means each tag would correspond to a dedicated worktree directory checked out to a branch or commit related to that tag, enabling isolated parallel work environments for each task list.
-
-### How This Maps to Git Worktrees
-
-- **Git worktrees** allow multiple working directories linked to the same repository, each checked out to a different branch or commit[1][2]. This lets you work on multiple branches simultaneously without switching contexts in a single directory.
-
-- When you create a worktree with `git worktree add <path> [<branch>]`, Git creates a new linked working tree at `<path>`, optionally checking out a specified branch or creating a new one[1][2]. Naming the worktree directory after the tag (taskmaster list) is straightforward and semantically clear.
-
-- This setup mirrors your existing branch-based task list separation but extends it to physical directories, which can improve workflow isolation and reduce context switching.
-
-### Benefits for Your Project
-
-- **Isolated environments per task list/tag:** Each tag’s worktree can have its own checked-out branch, allowing independent development, testing, or review without interference.
-
-- **Parallel workflows:** Developers can switch between worktrees (directories) instead of switching branches in one directory, reducing errors and improving productivity.
-
-- **Automation potential:** Your `task-master git` commands can automate creating, switching, and cleaning up these worktrees based on tags, similar to how you manage branches and task lists.
-
-### Challenges and Considerations
-
-- **Complexity in management:** Git worktrees add complexity in tracking multiple directories and ensuring users operate in the correct one[1]. Your CLI should provide clear commands and feedback to avoid confusion.
-
-- **Maintenance overhead:** Worktrees need pruning and cleanup (`git worktree prune` or `git worktree remove`) to avoid clutter[1]. Automating cleanup in your tool would be beneficial.
-
-- **Syncing and updates:** Each worktree is a separate checkout and can become outdated. Your automation should include commands to update or rebase worktrees as needed.
-
-- **Tooling support:** Not all Git tools or scripts fully support worktrees, so your CLI wrappers should handle edge cases and provide a consistent experience[1][3].
-
-### Practical Implementation Ideas
-
-- When a new tag (taskmaster list) is created, run `git worktree add` to create a new worktree directory named after the tag.
-
-- Store metadata linking tags to worktree paths in your taskmaster configuration to track and manage them.
-
-- Provide commands like `task-master worktree list`, `task-master worktree add <tag>`, and `task-master worktree remove <tag>` to manage these worktrees.
-
-- Integrate with GitHub CLI (`gh`) and native git commands to automate branch creation, PR handling, and syncing within each worktree.
-
-- Consider inspiration from existing tools like [wt](https://github.com/taecontrol/wt) that automate worktree environment setup and teardown[3].
-
-### Summary
-
-Using git worktrees per taskmaster tag is a feasible and potentially powerful extension of your current branch-based task list separation. It offers isolated, parallel working directories aligned with your tags, improving workflow clarity and reducing branch-switching overhead. However, it requires careful tooling and automation to manage complexity, maintenance, and synchronization effectively. Given your project’s focus on automating git workflows and leveraging CLI tools, implementing this feature incrementally with robust user feedback and cleanup commands would be a practical approach.
-
-
----
-
-*Generated by Task Master Research Command*  
-*Timestamp: 2025-08-01T11:27:52.249Z*

.taskmaster/docs/test-prd.txt

@@ -1,8 +0,0 @@
-Simple Todo App PRD
-
-Create a basic todo list application with the following features:
-1. Add new todos
-2. Mark todos as complete
-3. Delete todos
-
-That's it. Keep it simple.

.taskmaster/docs/tm-core-phase-1.txt

@@ -1,343 +0,0 @@
-# Product Requirements Document: tm-core Package - Parse PRD Feature
-
-## Project Overview
-Create a TypeScript package named `tm-core` at `packages/tm-core` that implements parse-prd functionality using class-based architecture similar to the existing AI providers pattern.
-
-## Design Patterns & Architecture
-
-### Patterns to Apply
-1. **Factory Pattern**: Use for `ProviderFactory` to create AI provider instances
-2. **Strategy Pattern**: Use for `IAIProvider` implementations and `IStorage` implementations
-3. **Facade Pattern**: Use for `TaskMasterCore` as the main API entry point
-4. **Template Method Pattern**: Use for `BaseProvider` abstract class
-5. **Dependency Injection**: Use throughout for testability (pass dependencies via constructor)
-6. **Repository Pattern**: Use for `FileStorage` to abstract data persistence
-
-### Naming Conventions
-- **Files**: kebab-case (e.g., `task-parser.ts`, `file-storage.ts`)
-- **Classes**: PascalCase (e.g., `TaskParser`, `FileStorage`)
-- **Interfaces**: PascalCase with 'I' prefix (e.g., `IStorage`, `IAIProvider`)
-- **Methods**: camelCase (e.g., `parsePRD`, `loadTasks`)
-- **Constants**: UPPER_SNAKE_CASE (e.g., `DEFAULT_MODEL`)
-- **Type aliases**: PascalCase (e.g., `TaskStatus`, `ParseOptions`)
-
-## Exact Folder Structure Required
-```
-packages/tm-core/
-├── src/
-│   ├── index.ts
-│   ├── types/
-│   │   └── index.ts
-│   ├── interfaces/
-│   │   ├── index.ts              # Barrel export
-│   │   ├── storage.interface.ts
-│   │   ├── ai-provider.interface.ts
-│   │   └── configuration.interface.ts
-│   ├── tasks/
-│   │   ├── index.ts              # Barrel export
-│   │   └── task-parser.ts
-│   ├── ai/
-│   │   ├── index.ts              # Barrel export
-│   │   ├── base-provider.ts
-│   │   ├── provider-factory.ts
-│   │   ├── prompt-builder.ts
-│   │   └── providers/
-│   │       ├── index.ts          # Barrel export
-│   │       ├── anthropic-provider.ts
-│   │       ├── openai-provider.ts
-│   │       └── google-provider.ts
-│   ├── storage/
-│   │   ├── index.ts              # Barrel export
-│   │   └── file-storage.ts
-│   ├── config/
-│   │   ├── index.ts              # Barrel export
-│   │   └── config-manager.ts
-│   ├── utils/
-│   │   ├── index.ts              # Barrel export
-│   │   └── id-generator.ts
-│   └── errors/
-│       ├── index.ts              # Barrel export
-│       └── task-master-error.ts
-├── tests/
-│   ├── task-parser.test.ts
-│   ├── integration/
-│   │   └── parse-prd.test.ts
-│   └── mocks/
-│       └── mock-provider.ts
-├── package.json
-├── tsconfig.json
-├── tsup.config.js
-└── jest.config.js
-```
-
-## Specific Implementation Requirements
-
-### 1. Create types/index.ts
-Define these exact TypeScript interfaces:
-- `Task` interface with fields: id, title, description, status, priority, complexity, dependencies, subtasks, metadata, createdAt, updatedAt, source
-- `Subtask` interface with fields: id, title, description, completed
-- `TaskMetadata` interface with fields: parsedFrom, aiProvider, version, tags (optional)
-- Type literals: `TaskStatus` = 'pending' | 'in-progress' | 'completed' | 'blocked'
-- Type literals: `TaskPriority` = 'low' | 'medium' | 'high' | 'critical'
-- Type literals: `TaskComplexity` = 'simple' | 'moderate' | 'complex'
-- `ParseOptions` interface with fields: dryRun (optional), additionalContext (optional), tag (optional), maxTasks (optional)
-
-### 2. Create interfaces/storage.interface.ts
-Define `IStorage` interface with these exact methods:
-- `loadTasks(tag?: string): Promise<Task[]>`
-- `saveTasks(tasks: Task[], tag?: string): Promise<void>`
-- `appendTasks(tasks: Task[], tag?: string): Promise<void>`
-- `updateTask(id: string, task: Partial<Task>, tag?: string): Promise<void>`
-- `deleteTask(id: string, tag?: string): Promise<void>`
-- `exists(tag?: string): Promise<boolean>`
-
-### 3. Create interfaces/ai-provider.interface.ts
-Define `IAIProvider` interface with these exact methods:
-- `generateCompletion(prompt: string, options?: AIOptions): Promise<string>`
-- `calculateTokens(text: string): number`
-- `getName(): string`
-- `getModel(): string`
-
-Define `AIOptions` interface with fields: temperature (optional), maxTokens (optional), systemPrompt (optional)
-
-### 4. Create interfaces/configuration.interface.ts
-Define `IConfiguration` interface with fields:
-- `projectPath: string`
-- `aiProvider: string`
-- `apiKey?: string`
-- `aiOptions?: AIOptions`
-- `mainModel?: string`
-- `researchModel?: string`
-- `fallbackModel?: string`
-- `tasksPath?: string`
-- `enableTags?: boolean`
-
-### 5. Create tasks/task-parser.ts
-Create class `TaskParser` with:
-- Constructor accepting `aiProvider: IAIProvider` and `config: IConfiguration`
-- Private property `promptBuilder: PromptBuilder`
-- Public method `parsePRD(prdPath: string, options: ParseOptions = {}): Promise<Task[]>`
-- Private method `readPRD(prdPath: string): Promise<string>`
-- Private method `extractTasks(aiResponse: string): Partial<Task>[]`
-- Private method `enrichTasks(rawTasks: Partial<Task>[], prdPath: string): Task[]`
-- Apply **Dependency Injection** pattern via constructor
-
-### 6. Create ai/base-provider.ts
-Copy existing base-provider.js and convert to TypeScript abstract class:
-- Abstract class `BaseProvider` implementing `IAIProvider`
-- Protected properties: `apiKey: string`, `model: string`
-- Constructor accepting `apiKey: string` and `options: { model?: string }`
-- Abstract methods matching IAIProvider interface
-- Abstract method `getDefaultModel(): string`
-- Apply **Template Method** pattern for common provider logic
-
-### 7. Create ai/provider-factory.ts
-Create class `ProviderFactory` with:
-- Static method `create(config: { provider: string; apiKey?: string; model?: string }): Promise<IAIProvider>`
-- Switch statement for providers: 'anthropic', 'openai', 'google'
-- Dynamic imports for each provider
-- Throw error for unknown providers
-- Apply **Factory** pattern for creating provider instances
-
-Example implementation structure:
-```typescript
-switch (provider.toLowerCase()) {
-  case 'anthropic':
-    const { AnthropicProvider } = await import('./providers/anthropic-provider.js');
-    return new AnthropicProvider(apiKey, { model });
-}
-```
-
-### 8. Create ai/providers/anthropic-provider.ts
-Create class `AnthropicProvider` extending `BaseProvider`:
-- Import Anthropic SDK: `import { Anthropic } from '@anthropic-ai/sdk'`
-- Private property `client: Anthropic`
-- Implement all abstract methods from BaseProvider
-- Default model: 'claude-3-sonnet-20240229'
-- Handle API errors and wrap with meaningful messages
-
-### 9. Create ai/providers/openai-provider.ts (placeholder)
-Create class `OpenAIProvider` extending `BaseProvider`:
-- Import OpenAI SDK when implemented
-- For now, throw error: "OpenAI provider not yet implemented"
-
-### 10. Create ai/providers/google-provider.ts (placeholder)
-Create class `GoogleProvider` extending `BaseProvider`:
-- Import Google Generative AI SDK when implemented
-- For now, throw error: "Google provider not yet implemented"
-
-### 11. Create ai/prompt-builder.ts
-Create class `PromptBuilder` with:
-- Method `buildParsePrompt(prdContent: string, options: ParseOptions = {}): string`
-- Method `buildExpandPrompt(task: string, context?: string): string`
-- Use template literals for prompt construction
-- Include specific JSON format instructions in prompts
-
-### 9. Create storage/file-storage.ts
-Create class `FileStorage` implementing `IStorage`:
-- Private property `basePath: string` set to `{projectPath}/.taskmaster`
-- Constructor accepting `projectPath: string`
-- Private method `getTasksPath(tag?: string): string` returning correct path based on tag
-- Private method `ensureDirectory(dir: string): Promise<void>`
-- Implement all IStorage methods
-- Handle ENOENT errors by returning empty arrays
-- Use JSON format with structure: `{ tasks: Task[], metadata: { version: string, lastModified: string } }`
-- Apply **Repository** pattern for data access abstraction
-
-### 10. Create config/config-manager.ts
-Create class `ConfigManager`:
-- Private property `config: IConfiguration`
-- Constructor accepting `options: Partial<IConfiguration>`
-- Use Zod for validation with schema matching IConfiguration
-- Method `get<K extends keyof IConfiguration>(key: K): IConfiguration[K]`
-- Method `getAll(): IConfiguration`
-- Method `validate(): boolean`
-- Default values: projectPath = process.cwd(), aiProvider = 'anthropic', enableTags = true
-
-### 11. Create utils/id-generator.ts
-Export functions:
-- `generateTaskId(index: number = 0): string` returning format `task_{timestamp}_{index}_{random}`
-- `generateSubtaskId(parentId: string, index: number = 0): string` returning format `{parentId}_sub_{index}_{random}`
-
-### 16. Create src/index.ts
-Create main class `TaskMasterCore`:
-- Private properties: `config: ConfigManager`, `storage: IStorage`, `aiProvider?: IAIProvider`, `parser?: TaskParser`
-- Constructor accepting `options: Partial<IConfiguration>`
-- Method `initialize(): Promise<void>` for lazy loading
-- Method `parsePRD(prdPath: string, options: ParseOptions = {}): Promise<Task[]>`
-- Method `getTasks(tag?: string): Promise<Task[]>`
-- Apply **Facade** pattern to provide simple API over complex subsystems
-
-Export:
-- Class `TaskMasterCore`
-- Function `createTaskMaster(options: Partial<IConfiguration>): TaskMasterCore`
-- All types from './types'
-- All interfaces from './interfaces/*'
-
-Import statements should use kebab-case:
-```typescript
-import { TaskParser } from './tasks/task-parser';
-import { FileStorage } from './storage/file-storage';
-import { ConfigManager } from './config/config-manager';
-import { ProviderFactory } from './ai/provider-factory';
-```
-
-### 17. Configure package.json
-Create package.json with:
-- name: "@task-master/core"
-- version: "0.1.0"
-- type: "module"
-- main: "./dist/index.js"
-- module: "./dist/index.mjs"
-- types: "./dist/index.d.ts"
-- exports map for proper ESM/CJS support
-- scripts: build (tsup), dev (tsup --watch), test (jest), typecheck (tsc --noEmit)
-- dependencies: zod@^3.23.8
-- peerDependencies: @anthropic-ai/sdk, openai, @google/generative-ai
-- devDependencies: typescript, tsup, jest, ts-jest, @types/node, @types/jest
-
-### 18. Configure TypeScript
-Create tsconfig.json with:
-- target: "ES2022"
-- module: "ESNext"
-- strict: true (with all strict flags enabled)
-- declaration: true
-- outDir: "./dist"
-- rootDir: "./src"
-
-### 19. Configure tsup
-Create tsup.config.js with:
-- entry: ['src/index.ts']
-- format: ['cjs', 'esm']
-- dts: true
-- sourcemap: true
-- clean: true
-- external: AI provider SDKs
-
-### 20. Configure Jest
-Create jest.config.js with:
-- preset: 'ts-jest'
-- testEnvironment: 'node'
-- Coverage threshold: 80% for all metrics
-
-## Build Process
-1. Use tsup to compile TypeScript to both CommonJS and ESM
-2. Generate .d.ts files for TypeScript consumers
-3. Output to dist/ directory
-4. Ensure tree-shaking works properly
-
-## Testing Requirements
-- Create unit tests for TaskParser in tests/task-parser.test.ts
-- Create MockProvider class in tests/mocks/mock-provider.ts for testing without API calls
-- Test error scenarios (file not found, invalid JSON, etc.)
-- Create integration test in tests/integration/parse-prd.test.ts
-- Follow kebab-case naming for all test files
-
-## Success Criteria
-- TypeScript compilation with zero errors
-- No use of 'any' type
-- All interfaces properly exported
-- Compatible with existing tasks.json format
-- Feature flag support via USE_TM_CORE environment variable
-
-## Import/Export Conventions
-- Use named exports for all classes and interfaces
-- Use barrel exports (index.ts) in each directory
-- Import types/interfaces with type-only imports: `import type { Task } from '../types'`
-- Group imports in order: Node built-ins, external packages, internal packages, relative imports
-- Use .js extension in import paths for ESM compatibility
-
-## Error Handling Patterns
-- Create custom error classes in `src/errors/` directory
-- All public methods should catch and wrap errors with context
-- Use error codes for different error types (e.g., 'FILE_NOT_FOUND', 'PARSE_ERROR')
-- Never expose internal implementation details in error messages
-- Log errors to console.error only in development mode
-
-## Barrel Exports Content
-
-### interfaces/index.ts
-```typescript
-export type { IStorage } from './storage.interface';
-export type { IAIProvider, AIOptions } from './ai-provider.interface';
-export type { IConfiguration } from './configuration.interface';
-```
-
-### tasks/index.ts
-```typescript
-export { TaskParser } from './task-parser';
-```
-
-### ai/index.ts
-```typescript
-export { BaseProvider } from './base-provider';
-export { ProviderFactory } from './provider-factory';
-export { PromptBuilder } from './prompt-builder';
-```
-
-### ai/providers/index.ts
-```typescript
-export { AnthropicProvider } from './anthropic-provider';
-export { OpenAIProvider } from './openai-provider';
-export { GoogleProvider } from './google-provider';
-```
-
-### storage/index.ts
-```typescript
-export { FileStorage } from './file-storage';
-```
-
-### config/index.ts
-```typescript
-export { ConfigManager } from './config-manager';
-```
-
-### utils/index.ts
-```typescript
-export { generateTaskId, generateSubtaskId } from './id-generator';
-```
-
-### errors/index.ts
-```typescript
-export { TaskMasterError } from './task-master-error';
-```

.taskmaster/reports/task-complexity-report.json

@@ -1,21 +1,373 @@
 {
 	"meta": {
-		"generatedAt": "2025-08-02T14:28:59.851Z",
+		"generatedAt": "2025-05-27T16:34:53.088Z",
 		"tasksAnalyzed": 1,
-		"totalTasks": 93,
-		"analysisCount": 1,
+		"totalTasks": 84,
+		"analysisCount": 45,
 		"thresholdScore": 5,
 		"projectName": "Taskmaster",
-		"usedResearch": false
+		"usedResearch": true
 	},
 	"complexityAnalysis": [
 		{
 			"taskId": 24,
 			"taskTitle": "Implement AI-Powered Test Generation Command",
+			"complexityScore": 7,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "Break down the implementation of the AI-powered test generation command into detailed subtasks covering: command structure setup, AI prompt engineering, test file generation logic, integration with Claude API, and comprehensive error handling.",
+			"reasoning": "This task involves complex integration with an AI service (Claude), requires sophisticated prompt engineering, and needs to generate structured code files. The existing 3 subtasks are a good start but could be expanded to include more detailed steps for AI integration, error handling, and test file formatting."
+		},
+		{
+			"taskId": 26,
+			"taskTitle": "Implement Context Foundation for AI Operations",
+			"complexityScore": 6,
+			"recommendedSubtasks": 4,
+			"expansionPrompt": "The current 4 subtasks for implementing the context foundation appear comprehensive. Consider if any additional subtasks are needed for testing, documentation, or integration with existing systems.",
+			"reasoning": "This task involves creating a foundation for context integration with several well-defined components. The existing 4 subtasks cover the main implementation areas (context-file flag, cursor rules integration, context extraction utility, and command handler updates). The complexity is moderate as it requires careful integration with existing systems but has clear requirements."
+		},
+		{
+			"taskId": 27,
+			"taskTitle": "Implement Context Enhancements for AI Operations",
+			"complexityScore": 7,
+			"recommendedSubtasks": 4,
+			"expansionPrompt": "The current 4 subtasks for implementing context enhancements appear well-structured. Consider if any additional subtasks are needed for testing, documentation, or performance optimization.",
+			"reasoning": "This task builds upon the foundation from Task #26 and adds more sophisticated context handling features. The 4 existing subtasks cover the main implementation areas (code context extraction, task history context, PRD context integration, and context formatting). The complexity is higher than the foundation task due to the need for intelligent context selection and optimization."
+		},
+		{
+			"taskId": 28,
+			"taskTitle": "Implement Advanced ContextManager System",
+			"complexityScore": 8,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing the advanced ContextManager system appear comprehensive. Consider if any additional subtasks are needed for testing, documentation, or backward compatibility with previous context implementations.",
+			"reasoning": "This task represents the most complex phase of the context implementation, requiring a sophisticated class design, optimization algorithms, and integration with multiple systems. The 5 existing subtasks cover the core implementation areas, but the complexity is high due to the need for intelligent context prioritization, token management, and performance monitoring."
+		},
+		{
+			"taskId": 40,
+			"taskTitle": "Implement 'plan' Command for Task Implementation Planning",
+			"complexityScore": 5,
+			"recommendedSubtasks": 4,
+			"expansionPrompt": "The current 4 subtasks for implementing the 'plan' command appear well-structured. Consider if any additional subtasks are needed for testing, documentation, or integration with existing task management workflows.",
+			"reasoning": "This task involves creating a new command that leverages AI to generate implementation plans. The existing 4 subtasks cover the main implementation areas (retrieving task content, generating plans with AI, formatting in XML, and error handling). The complexity is moderate as it builds on existing patterns for task updates but requires careful AI integration."
+		},
+		{
+			"taskId": 41,
+			"taskTitle": "Implement Visual Task Dependency Graph in Terminal",
+			"complexityScore": 8,
+			"recommendedSubtasks": 10,
+			"expansionPrompt": "The current 10 subtasks for implementing the visual task dependency graph appear comprehensive. Consider if any additional subtasks are needed for performance optimization with large graphs or additional visualization options.",
+			"reasoning": "This task involves creating a sophisticated visualization system for terminal display, which is inherently complex due to layout algorithms, ASCII/Unicode rendering, and handling complex dependency relationships. The 10 existing subtasks cover all major aspects of implementation, from CLI interface to accessibility features."
+		},
+		{
+			"taskId": 42,
+			"taskTitle": "Implement MCP-to-MCP Communication Protocol",
+			"complexityScore": 9,
+			"recommendedSubtasks": 8,
+			"expansionPrompt": "The current 8 subtasks for implementing the MCP-to-MCP communication protocol appear well-structured. Consider if any additional subtasks are needed for security hardening, performance optimization, or comprehensive documentation.",
+			"reasoning": "This task involves designing and implementing a complex communication protocol between different MCP tools and servers. It requires sophisticated adapter patterns, client-server architecture, and handling of multiple operational modes. The complexity is very high due to the need for standardization, security, and backward compatibility."
+		},
+		{
+			"taskId": 44,
+			"taskTitle": "Implement Task Automation with Webhooks and Event Triggers",
+			"complexityScore": 8,
+			"recommendedSubtasks": 7,
+			"expansionPrompt": "The current 7 subtasks for implementing task automation with webhooks appear comprehensive. Consider if any additional subtasks are needed for security testing, rate limiting implementation, or webhook monitoring tools.",
+			"reasoning": "This task involves creating a sophisticated event system with webhooks for integration with external services. The complexity is high due to the need for secure authentication, reliable delivery mechanisms, and handling of various webhook formats and protocols. The existing subtasks cover the main implementation areas but security and monitoring could be emphasized more."
+		},
+		{
+			"taskId": 45,
+			"taskTitle": "Implement GitHub Issue Import Feature",
+			"complexityScore": 6,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing the GitHub issue import feature appear well-structured. Consider if any additional subtasks are needed for handling GitHub API rate limiting, caching, or supporting additional issue metadata.",
+			"reasoning": "This task involves integrating with the GitHub API to import issues as tasks. The complexity is moderate as it requires API authentication, data mapping, and error handling. The existing 5 subtasks cover the main implementation areas from design to end-to-end implementation."
+		},
+		{
+			"taskId": 46,
+			"taskTitle": "Implement ICE Analysis Command for Task Prioritization",
+			"complexityScore": 7,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing the ICE analysis command appear comprehensive. Consider if any additional subtasks are needed for visualization of ICE scores or integration with other prioritization methods.",
+			"reasoning": "This task involves creating an AI-powered analysis system for task prioritization using the ICE methodology. The complexity is high due to the need for sophisticated scoring algorithms, AI integration, and report generation. The existing subtasks cover the main implementation areas from algorithm design to integration with existing systems."
+		},
+		{
+			"taskId": 47,
+			"taskTitle": "Enhance Task Suggestion Actions Card Workflow",
+			"complexityScore": 6,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "The current 6 subtasks for enhancing the task suggestion actions card workflow appear well-structured. Consider if any additional subtasks are needed for user testing, accessibility improvements, or performance optimization.",
+			"reasoning": "This task involves redesigning the UI workflow for task expansion and management. The complexity is moderate as it requires careful UX design and state management but builds on existing components. The 6 existing subtasks cover the main implementation areas from design to testing."
+		},
+		{
+			"taskId": 48,
+			"taskTitle": "Refactor Prompts into Centralized Structure",
+			"complexityScore": 4,
+			"recommendedSubtasks": 3,
+			"expansionPrompt": "The current 3 subtasks for refactoring prompts into a centralized structure appear appropriate. Consider if any additional subtasks are needed for prompt versioning, documentation, or testing.",
+			"reasoning": "This task involves a straightforward refactoring to improve code organization. The complexity is relatively low as it primarily involves moving code rather than creating new functionality. The 3 existing subtasks cover the main implementation areas from directory structure to integration."
+		},
+		{
+			"taskId": 49,
+			"taskTitle": "Implement Code Quality Analysis Command",
 			"complexityScore": 8,
 			"recommendedSubtasks": 6,
-			"expansionPrompt": "Expand task 24 'Implement AI-Powered Test Generation Command' into 6 subtasks, focusing on: 1) Command structure implementation, 2) AI prompt engineering for test generation, 3) Test file generation and output, 4) Framework-specific template implementation, 5) MCP tool integration, and 6) Documentation and help system integration. Include detailed implementation steps, dependencies, and testing approaches for each subtask.",
-			"reasoning": "This task has high complexity due to several challenging aspects: 1) AI integration requiring sophisticated prompt engineering, 2) Test generation across multiple frameworks, 3) File system operations with proper error handling, 4) MCP tool integration, 5) Complex configuration requirements, and 6) Framework-specific template generation. The task already has 5 subtasks but could benefit from reorganization based on the updated implementation details in the info blocks, particularly around framework support and configuration."
+			"expansionPrompt": "The current 6 subtasks for implementing the code quality analysis command appear comprehensive. Consider if any additional subtasks are needed for performance optimization with large codebases or integration with existing code quality tools.",
+			"reasoning": "This task involves creating a sophisticated code analysis system with pattern recognition, best practice verification, and AI-powered recommendations. The complexity is high due to the need for code parsing, complex analysis algorithms, and integration with AI services. The existing subtasks cover the main implementation areas from algorithm design to user interface."
+		},
+		{
+			"taskId": 50,
+			"taskTitle": "Implement Test Coverage Tracking System by Task",
+			"complexityScore": 9,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing the test coverage tracking system appear well-structured. Consider if any additional subtasks are needed for integration with CI/CD systems, performance optimization, or visualization tools.",
+			"reasoning": "This task involves creating a complex system that maps test coverage to specific tasks and subtasks. The complexity is very high due to the need for sophisticated data structures, integration with coverage tools, and AI-powered test generation. The existing subtasks are comprehensive and cover the main implementation areas from data structure design to AI integration."
+		},
+		{
+			"taskId": 51,
+			"taskTitle": "Implement Perplexity Research Command",
+			"complexityScore": 6,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing the Perplexity research command appear comprehensive. Consider if any additional subtasks are needed for caching optimization, result formatting, or integration with other research tools.",
+			"reasoning": "This task involves creating a new command that integrates with the Perplexity AI API for research. The complexity is moderate as it requires API integration, context extraction, and result formatting. The 5 existing subtasks cover the main implementation areas from API client to caching system."
+		},
+		{
+			"taskId": 52,
+			"taskTitle": "Implement Task Suggestion Command for CLI",
+			"complexityScore": 6,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing the task suggestion command appear well-structured. Consider if any additional subtasks are needed for suggestion quality evaluation, user feedback collection, or integration with existing task workflows.",
+			"reasoning": "This task involves creating a new CLI command that generates contextually relevant task suggestions using AI. The complexity is moderate as it requires AI integration, context collection, and interactive CLI interfaces. The existing subtasks cover the main implementation areas from data collection to user interface."
+		},
+		{
+			"taskId": 53,
+			"taskTitle": "Implement Subtask Suggestion Feature for Parent Tasks",
+			"complexityScore": 6,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "The current 6 subtasks for implementing the subtask suggestion feature appear comprehensive. Consider if any additional subtasks are needed for suggestion quality metrics, user feedback collection, or performance optimization.",
+			"reasoning": "This task involves creating a feature that suggests contextually relevant subtasks for parent tasks. The complexity is moderate as it builds on existing task management systems but requires sophisticated AI integration and context analysis. The 6 existing subtasks cover the main implementation areas from validation to testing."
+		},
+		{
+			"taskId": 55,
+			"taskTitle": "Implement Positional Arguments Support for CLI Commands",
+			"complexityScore": 5,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing positional arguments support appear well-structured. Consider if any additional subtasks are needed for backward compatibility testing, documentation updates, or user experience improvements.",
+			"reasoning": "This task involves modifying the command parsing logic to support positional arguments alongside the existing flag-based syntax. The complexity is moderate as it requires careful handling of different argument styles and edge cases. The 5 existing subtasks cover the main implementation areas from analysis to documentation."
+		},
+		{
+			"taskId": 57,
+			"taskTitle": "Enhance Task-Master CLI User Experience and Interface",
+			"complexityScore": 7,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "The current 6 subtasks for enhancing the CLI user experience appear comprehensive. Consider if any additional subtasks are needed for accessibility testing, internationalization, or performance optimization.",
+			"reasoning": "This task involves a significant overhaul of the CLI interface to improve user experience. The complexity is high due to the breadth of changes (logging, visual elements, interactive components, etc.) and the need for consistent design across all commands. The 6 existing subtasks cover the main implementation areas from log management to help systems."
+		},
+		{
+			"taskId": 60,
+			"taskTitle": "Implement Mentor System with Round-Table Discussion Feature",
+			"complexityScore": 8,
+			"recommendedSubtasks": 7,
+			"expansionPrompt": "The current 7 subtasks for implementing the mentor system appear well-structured. Consider if any additional subtasks are needed for mentor personality consistency, discussion quality evaluation, or performance optimization with multiple mentors.",
+			"reasoning": "This task involves creating a sophisticated mentor simulation system with round-table discussions. The complexity is high due to the need for personality simulation, complex LLM integration, and structured discussion management. The 7 existing subtasks cover the main implementation areas from architecture to testing."
+		},
+		{
+			"taskId": 62,
+			"taskTitle": "Add --simple Flag to Update Commands for Direct Text Input",
+			"complexityScore": 4,
+			"recommendedSubtasks": 8,
+			"expansionPrompt": "The current 8 subtasks for implementing the --simple flag appear comprehensive. Consider if any additional subtasks are needed for user experience testing or documentation updates.",
+			"reasoning": "This task involves adding a simple flag option to bypass AI processing for updates. The complexity is relatively low as it primarily involves modifying existing command handlers and adding a flag. The 8 existing subtasks are very detailed and cover all aspects of implementation from command parsing to testing."
+		},
+		{
+			"taskId": 63,
+			"taskTitle": "Add pnpm Support for the Taskmaster Package",
+			"complexityScore": 5,
+			"recommendedSubtasks": 8,
+			"expansionPrompt": "The current 8 subtasks for adding pnpm support appear comprehensive. Consider if any additional subtasks are needed for CI/CD integration, performance comparison, or documentation updates.",
+			"reasoning": "This task involves ensuring the package works correctly with pnpm as an alternative package manager. The complexity is moderate as it requires careful testing of installation processes and scripts across different environments. The 8 existing subtasks cover all major aspects from documentation to binary verification."
+		},
+		{
+			"taskId": 64,
+			"taskTitle": "Add Yarn Support for Taskmaster Installation",
+			"complexityScore": 5,
+			"recommendedSubtasks": 9,
+			"expansionPrompt": "The current 9 subtasks for adding Yarn support appear comprehensive. Consider if any additional subtasks are needed for performance testing, CI/CD integration, or compatibility with different Yarn versions.",
+			"reasoning": "This task involves ensuring the package works correctly with Yarn as an alternative package manager. The complexity is moderate as it requires careful testing of installation processes and scripts across different environments. The 9 existing subtasks are very detailed and cover all aspects from configuration to testing."
+		},
+		{
+			"taskId": 65,
+			"taskTitle": "Add Bun Support for Taskmaster Installation",
+			"complexityScore": 6,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "The current 6 subtasks for adding Bun support appear well-structured. Consider if any additional subtasks are needed for handling Bun-specific issues, performance testing, or documentation updates.",
+			"reasoning": "This task involves adding support for the newer Bun package manager. The complexity is slightly higher than the other package manager tasks due to Bun's differences from Node.js and potential compatibility issues. The 6 existing subtasks cover the main implementation areas from research to documentation."
+		},
+		{
+			"taskId": 67,
+			"taskTitle": "Add CLI JSON output and Cursor keybindings integration",
+			"complexityScore": 5,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing JSON output and Cursor keybindings appear well-structured. Consider if any additional subtasks are needed for testing across different operating systems, documentation updates, or user experience improvements.",
+			"reasoning": "This task involves two distinct features: adding JSON output to CLI commands and creating a keybindings installation command. The complexity is moderate as it requires careful handling of different output formats and OS-specific file paths. The 5 existing subtasks cover the main implementation areas for both features."
+		},
+		{
+			"taskId": 68,
+			"taskTitle": "Ability to create tasks without parsing PRD",
+			"complexityScore": 3,
+			"recommendedSubtasks": 2,
+			"expansionPrompt": "The current 2 subtasks for implementing task creation without PRD appear appropriate. Consider if any additional subtasks are needed for validation, error handling, or integration with existing task management workflows.",
+			"reasoning": "This task involves a relatively simple modification to allow task creation without requiring a PRD document. The complexity is low as it primarily involves creating a form interface and saving functionality. The 2 existing subtasks cover the main implementation areas of UI design and data saving."
+		},
+		{
+			"taskId": 72,
+			"taskTitle": "Implement PDF Generation for Project Progress and Dependency Overview",
+			"complexityScore": 7,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "The current 6 subtasks for implementing PDF generation appear comprehensive. Consider if any additional subtasks are needed for handling large projects, additional visualization options, or integration with existing reporting tools.",
+			"reasoning": "This task involves creating a feature to generate PDF reports of project progress and dependency visualization. The complexity is high due to the need for PDF generation, data collection, and visualization integration. The 6 existing subtasks cover the main implementation areas from library selection to export options."
+		},
+		{
+			"taskId": 75,
+			"taskTitle": "Integrate Google Search Grounding for Research Role",
+			"complexityScore": 5,
+			"recommendedSubtasks": 4,
+			"expansionPrompt": "The current 4 subtasks for integrating Google Search Grounding appear well-structured. Consider if any additional subtasks are needed for testing with different query types, error handling, or performance optimization.",
+			"reasoning": "This task involves updating the AI service layer to enable Google Search Grounding for research roles. The complexity is moderate as it requires careful integration with the existing AI service architecture and conditional logic. The 4 existing subtasks cover the main implementation areas from service layer modification to testing."
+		},
+		{
+			"taskId": 76,
+			"taskTitle": "Develop E2E Test Framework for Taskmaster MCP Server (FastMCP over stdio)",
+			"complexityScore": 8,
+			"recommendedSubtasks": 7,
+			"expansionPrompt": "The current 7 subtasks for developing the E2E test framework appear comprehensive. Consider if any additional subtasks are needed for test result reporting, CI/CD integration, or performance benchmarking.",
+			"reasoning": "This task involves creating a sophisticated end-to-end testing framework for the MCP server. The complexity is high due to the need for subprocess management, protocol handling, and robust test case definition. The 7 existing subtasks cover the main implementation areas from architecture to documentation."
+		},
+		{
+			"taskId": 77,
+			"taskTitle": "Implement AI Usage Telemetry for Taskmaster (with external analytics endpoint)",
+			"complexityScore": 7,
+			"recommendedSubtasks": 18,
+			"expansionPrompt": "The current 18 subtasks for implementing AI usage telemetry appear very comprehensive. Consider if any additional subtasks are needed for security hardening, privacy compliance, or user feedback collection.",
+			"reasoning": "This task involves creating a telemetry system to track AI usage metrics. The complexity is high due to the need for secure data transmission, comprehensive data collection, and integration across multiple commands. The 18 existing subtasks are extremely detailed and cover all aspects of implementation from core utility to provider-specific updates."
+		},
+		{
+			"taskId": 80,
+			"taskTitle": "Implement Unique User ID Generation and Storage During Installation",
+			"complexityScore": 4,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "The current 5 subtasks for implementing unique user ID generation appear well-structured. Consider if any additional subtasks are needed for privacy compliance, security auditing, or integration with the telemetry system.",
+			"reasoning": "This task involves generating and storing a unique user identifier during installation. The complexity is relatively low as it primarily involves UUID generation and configuration file management. The 5 existing subtasks cover the main implementation areas from script structure to documentation."
+		},
+		{
+			"taskId": 81,
+			"taskTitle": "Task #81: Implement Comprehensive Local Telemetry System with Future Server Integration Capability",
+			"complexityScore": 8,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "The current 6 subtasks for implementing the comprehensive local telemetry system appear well-structured. Consider if any additional subtasks are needed for data migration, storage optimization, or visualization tools.",
+			"reasoning": "This task involves expanding the telemetry system to capture additional metrics and implement local storage with future server integration capability. The complexity is high due to the breadth of data collection, storage requirements, and privacy considerations. The 6 existing subtasks cover the main implementation areas from data collection to user-facing benefits."
+		},
+		{
+			"taskId": 82,
+			"taskTitle": "Update supported-models.json with token limit fields",
+			"complexityScore": 3,
+			"recommendedSubtasks": 1,
+			"expansionPrompt": "This task appears straightforward enough to be implemented without further subtasks. Focus on researching accurate token limit values for each model and ensuring backward compatibility.",
+			"reasoning": "This task involves a simple update to the supported-models.json file to include new token limit fields. The complexity is low as it primarily involves research and data entry. No subtasks are necessary as the task is well-defined and focused."
+		},
+		{
+			"taskId": 83,
+			"taskTitle": "Update config-manager.js defaults and getters",
+			"complexityScore": 4,
+			"recommendedSubtasks": 1,
+			"expansionPrompt": "This task appears straightforward enough to be implemented without further subtasks. Focus on updating the DEFAULTS object and related getter functions while maintaining backward compatibility.",
+			"reasoning": "This task involves updating the config-manager.js module to replace maxTokens with more specific token limit fields. The complexity is relatively low as it primarily involves modifying existing code rather than creating new functionality. No subtasks are necessary as the task is well-defined and focused."
+		},
+		{
+			"taskId": 84,
+			"taskTitle": "Implement token counting utility",
+			"complexityScore": 5,
+			"recommendedSubtasks": 1,
+			"expansionPrompt": "This task appears well-defined enough to be implemented without further subtasks. Focus on implementing accurate token counting for different models and proper fallback mechanisms.",
+			"reasoning": "This task involves creating a utility function to count tokens for different AI models. The complexity is moderate as it requires integration with the tiktoken library and handling different tokenization schemes. No subtasks are necessary as the task is well-defined and focused."
+		},
+		{
+			"taskId": 69,
+			"taskTitle": "Enhance Analyze Complexity for Specific Task IDs",
+			"complexityScore": 7,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "Break down the task 'Enhance Analyze Complexity for Specific Task IDs' into 6 subtasks focusing on: 1) Core logic modification to accept ID parameters, 2) Report merging functionality, 3) CLI interface updates, 4) MCP tool integration, 5) Documentation updates, and 6) Comprehensive testing across all components.",
+			"reasoning": "This task involves modifying existing functionality across multiple components (core logic, CLI, MCP) with complex logic for filtering tasks and merging reports. The implementation requires careful handling of different parameter combinations and edge cases. The task has interdependent components that need to work together seamlessly, and the report merging functionality adds significant complexity."
+		},
+		{
+			"taskId": 70,
+			"taskTitle": "Implement 'diagram' command for Mermaid diagram generation",
+			"complexityScore": 6,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "Break down the 'diagram' command implementation into 5 subtasks: 1) Command interface and parameter handling, 2) Task data extraction and transformation to Mermaid syntax, 3) Diagram rendering with status color coding, 4) Output formatting and file export functionality, and 5) Error handling and edge case management.",
+			"reasoning": "This task requires implementing a new feature rather than modifying existing code, which reduces complexity from integration challenges. However, it involves working with visualization logic, dependency mapping, and multiple output formats. The color coding based on status and handling of dependency relationships adds moderate complexity. The task is well-defined but requires careful attention to diagram formatting and error handling."
+		},
+		{
+			"taskId": 85,
+			"taskTitle": "Update ai-services-unified.js for dynamic token limits",
+			"complexityScore": 7,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "Break down the update of ai-services-unified.js for dynamic token limits into subtasks such as: (1) Import and integrate the token counting utility, (2) Refactor _unifiedServiceRunner to calculate and enforce dynamic token limits, (3) Update error handling for token limit violations, (4) Add and verify logging for token usage, (5) Write and execute tests for various prompt and model scenarios.",
+			"reasoning": "This task involves significant code changes to a core function, integration of a new utility, dynamic logic for multiple models, and robust error handling. It also requires comprehensive testing for edge cases and integration, making it moderately complex and best managed by splitting into focused subtasks."
+		},
+		{
+			"taskId": 87,
+			"taskTitle": "Implement validation and error handling",
+			"complexityScore": 5,
+			"recommendedSubtasks": 4,
+			"expansionPrompt": "Decompose this task into: (1) Add validation logic for model and config loading, (2) Implement error handling and fallback mechanisms, (3) Enhance logging and reporting for token usage, (4) Develop helper functions for configuration suggestions and improvements.",
+			"reasoning": "This task is primarily about adding validation, error handling, and logging. While important for robustness, the logic is straightforward and can be modularized into a few clear subtasks."
+		},
+		{
+			"taskId": 89,
+			"taskTitle": "Introduce Prioritize Command with Enhanced Priority Levels",
+			"complexityScore": 6,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "Expand this task into: (1) Implement the prioritize command with all required flags and shorthands, (2) Update CLI output and help documentation for new priority levels, (3) Ensure backward compatibility with existing commands, (4) Add error handling for invalid inputs, (5) Write and run tests for all command scenarios.",
+			"reasoning": "This CLI feature requires command parsing, updating internal logic for new priority levels, documentation, and robust error handling. The complexity is moderate due to the need for backward compatibility and comprehensive testing."
+		},
+		{
+			"taskId": 90,
+			"taskTitle": "Implement Subtask Progress Analyzer and Reporting System",
+			"complexityScore": 8,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "Break down the analyzer implementation into: (1) Design and implement progress tracking logic, (2) Develop status validation and issue detection, (3) Build the reporting system with multiple output formats, (4) Integrate analyzer with the existing task management system, (5) Optimize for performance and scalability, (6) Write unit, integration, and performance tests.",
+			"reasoning": "This is a complex, multi-faceted feature involving data analysis, reporting, integration, and performance optimization. It touches many parts of the system and requires careful design, making it one of the most complex tasks in the list."
+		},
+		{
+			"taskId": 91,
+			"taskTitle": "Implement Move Command for Tasks and Subtasks",
+			"complexityScore": 7,
+			"recommendedSubtasks": 5,
+			"expansionPrompt": "Expand this task into: (1) Implement move logic for tasks and subtasks, (2) Handle edge cases (invalid ids, non-existent parents, circular dependencies), (3) Update CLI to support move command with flags, (4) Ensure data integrity and update relationships, (5) Write and execute tests for various move scenarios.",
+			"reasoning": "Moving tasks and subtasks requires careful handling of hierarchical data, edge cases, and data integrity. The command must be robust and user-friendly, necessitating multiple focused subtasks for safe implementation."
+		},
+		{
+			"taskId": 92,
+			"taskTitle": "Add Global Joke Flag to All CLI Commands",
+			"complexityScore": 8,
+			"recommendedSubtasks": 7,
+			"expansionPrompt": "Break down the implementation of the global --joke flag into the following subtasks: (1) Update CLI foundation to support global flags, (2) Develop the joke-service module with joke management and category support, (3) Integrate joke output into existing output utilities, (4) Update all CLI commands for joke flag compatibility, (5) Add configuration options for joke categories and custom jokes, (6) Implement comprehensive testing (flag recognition, output, content, integration, performance, regression), (7) Update documentation and usage examples.",
+			"reasoning": "This task requires changes across the CLI foundation, output utilities, all command modules, and configuration management. It introduces a new service module, global flag handling, and output logic that must not interfere with existing features (including JSON output). The need for robust testing and backward compatibility further increases complexity. The scope spans multiple code areas and requires careful integration, justifying a high complexity score and a detailed subtask breakdown to manage risk and ensure maintainability.[2][3][5]"
+		},
+		{
+			"taskId": 94,
+			"taskTitle": "Implement Standalone 'research' CLI Command for AI-Powered Queries",
+			"complexityScore": 7,
+			"recommendedSubtasks": 6,
+			"expansionPrompt": "Break down the implementation of the 'research' CLI command into logical subtasks covering command registration, parameter handling, context gathering, AI service integration, output formatting, and documentation.",
+			"reasoning": "This task has moderate to high complexity (7/10) due to multiple interconnected components: CLI argument parsing, integration with AI services, context gathering from various sources, and output formatting with different modes. The cyclomatic complexity would be significant with multiple decision paths for handling different flags and options. The task requires understanding existing patterns and extending the codebase in a consistent manner, suggesting the need for careful decomposition into manageable subtasks."
+		},
+		{
+			"taskId": 86,
+			"taskTitle": "Implement GitHub Issue Export Feature",
+			"complexityScore": 9,
+			"recommendedSubtasks": 10,
+			"expansionPrompt": "Break down the implementation of the GitHub Issue Export Feature into detailed subtasks covering: command structure and CLI integration, GitHub API client development, authentication and error handling, task-to-issue mapping logic, content formatting and markdown conversion, bidirectional linking and metadata management, extensible architecture and adapter interfaces, configuration and settings management, documentation, and comprehensive testing (unit, integration, edge cases, performance).",
+			"reasoning": "This task involves designing and implementing a robust, extensible export system with deep integration into GitHub, including bidirectional workflows, complex data mapping, error handling, and support for future platforms. The requirements span CLI design, API integration, content transformation, metadata management, extensibility, configuration, and extensive testing. The breadth and depth of these requirements, along with the need for maintainability and future extensibility, place this task at a high complexity level. Breaking it into at least 10 subtasks will ensure each major component and concern is addressed systematically, reducing risk and improving quality."
 		}
 	]
 }

.taskmaster/reports/task-complexity-report_tm-core-phase-1.json

@@ -1,77 +0,0 @@
-{
-	"meta": {
-		"generatedAt": "2025-08-06T12:39:03.250Z",
-		"tasksAnalyzed": 8,
-		"totalTasks": 11,
-		"analysisCount": 8,
-		"thresholdScore": 5,
-		"projectName": "Taskmaster",
-		"usedResearch": false
-	},
-	"complexityAnalysis": [
-		{
-			"taskId": 118,
-			"taskTitle": "Create AI Provider Base Architecture",
-			"complexityScore": 7,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Break down the implementation of BaseProvider abstract TypeScript class into subtasks focusing on: 1) Converting existing JavaScript base-provider.js to TypeScript with proper interface definitions, 2) Implementing the Template Method pattern with abstract methods, 3) Adding comprehensive error handling and retry logic with exponential backoff, 4) Creating proper TypeScript types for all method signatures and options, 5) Setting up comprehensive unit tests with MockProvider. Consider that the existing codebase uses JavaScript ES modules and Vercel AI SDK, so the TypeScript implementation needs to maintain compatibility while adding type safety.",
-			"reasoning": "This task requires significant architectural work including converting existing JavaScript code to TypeScript, creating new interfaces, implementing design patterns, and ensuring backward compatibility. The existing base-provider.js already implements a sophisticated provider pattern using Vercel AI SDK, so the TypeScript conversion needs careful consideration of type definitions and maintaining existing functionality."
-		},
-		{
-			"taskId": 119,
-			"taskTitle": "Implement Provider Factory with Dynamic Imports",
-			"complexityScore": 5,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Break down the Provider Factory implementation into: 1) Creating the ProviderFactory class structure with proper TypeScript typing, 2) Implementing the switch statement for provider selection logic, 3) Adding dynamic imports for each provider to enable tree-shaking, 4) Handling provider instantiation with configuration passing, 5) Implementing comprehensive error handling for module loading failures. Note that the existing codebase already has a provider selection mechanism in the JavaScript files, so ensure the factory pattern integrates smoothly with existing infrastructure.",
-			"reasoning": "This is a moderate complexity task that involves creating a factory pattern with dynamic imports. The existing codebase already has provider management logic, so the main complexity is in creating a clean TypeScript implementation with proper dynamic imports while maintaining compatibility with the existing JavaScript module system."
-		},
-		{
-			"taskId": 120,
-			"taskTitle": "Implement Anthropic Provider",
-			"complexityScore": 6,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Implement the AnthropicProvider class in stages: 1) Set up the class structure extending BaseProvider with proper TypeScript imports and type definitions, 2) Implement constructor with Anthropic SDK client initialization and configuration handling, 3) Implement generateCompletion method with proper message format transformation and error handling, 4) Add token calculation methods and utility functions (getName, getModel, getDefaultModel), 5) Implement comprehensive error handling with custom error wrapping and type exports. The existing anthropic.js provider can serve as a reference but needs to be reimplemented to extend the new TypeScript BaseProvider.",
-			"reasoning": "This task involves integrating with an external SDK (@anthropic-ai/sdk) and implementing all abstract methods from BaseProvider. The existing JavaScript implementation provides a good reference, but the TypeScript version needs proper type definitions, error handling, and must work with the new abstract base class architecture."
-		},
-		{
-			"taskId": 121,
-			"taskTitle": "Create Prompt Builder and Task Parser",
-			"complexityScore": 8,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Implement PromptBuilder and TaskParser with focus on: 1) Creating PromptBuilder class with template methods for building structured prompts with JSON format instructions, 2) Implementing TaskParser class structure with dependency injection of IAIProvider and IConfiguration, 3) Implementing parsePRD method with file reading, prompt generation, and AI provider integration, 4) Adding task enrichment logic with metadata, validation, and structure verification, 5) Implementing comprehensive error handling for all failure scenarios including file I/O, AI provider errors, and JSON parsing. The existing parse-prd.js provides complex logic that needs to be reimplemented with proper TypeScript types and cleaner architecture.",
-			"reasoning": "This is a complex task that involves multiple components working together: file I/O, AI provider integration, JSON parsing, and data validation. The existing parse-prd.js implementation is quite sophisticated with Zod schemas and complex task processing logic that needs to be reimplemented in TypeScript with proper separation of concerns."
-		},
-		{
-			"taskId": 122,
-			"taskTitle": "Implement Configuration Management",
-			"complexityScore": 6,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Create ConfigManager implementation focusing on: 1) Setting up Zod validation schema that matches the IConfiguration interface structure, 2) Implementing ConfigManager constructor with default values merging and storage initialization, 3) Creating validate method with Zod schema parsing and user-friendly error transformation, 4) Implementing type-safe get method using TypeScript generics and keyof operator, 5) Adding getAll method and ensuring proper immutability and module exports. The existing config-manager.js has complex configuration loading logic that can inform the TypeScript implementation but needs cleaner architecture.",
-			"reasoning": "This task involves creating a configuration management system with validation using Zod. The existing JavaScript config-manager.js is quite complex with multiple configuration sources, defaults, and validation logic. The TypeScript version needs to provide a cleaner API while maintaining the flexibility of the current system."
-		},
-		{
-			"taskId": 123,
-			"taskTitle": "Create Utility Functions and Error Handling",
-			"complexityScore": 4,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Implement utilities and error handling in stages: 1) Create ID generation module with generateTaskId and generateSubtaskId functions using proper random generation, 2) Implement base TaskMasterError class extending Error with proper TypeScript typing, 3) Add error sanitization methods to prevent sensitive data exposure in production, 4) Implement development-only logging with environment detection, 5) Create specialized error subclasses (FileNotFoundError, ParseError, ValidationError, APIError) with appropriate error codes and formatting.",
-			"reasoning": "This is a relatively straightforward task involving utility functions and error class hierarchies. The main complexity is in ensuring proper error sanitization for production use and creating a well-structured error hierarchy that can be used throughout the application."
-		},
-		{
-			"taskId": 124,
-			"taskTitle": "Implement TaskMasterCore Facade",
-			"complexityScore": 7,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Build TaskMasterCore facade implementation: 1) Create class structure with proper TypeScript imports and type definitions for all subsystem interfaces, 2) Implement initialize method for lazy loading AI provider and parser instances based on configuration, 3) Create parsePRD method that coordinates parser, AI provider, and storage subsystems, 4) Implement getTasks and other facade methods for task retrieval and management, 5) Create createTaskMaster factory function and set up all module exports including type re-exports. Ensure proper ESM compatibility with .js extensions in imports.",
-			"reasoning": "This is a complex integration task that brings together all the other components into a cohesive facade. It requires understanding of the facade pattern, proper dependency management, lazy initialization, and careful module export structure for the public API."
-		},
-		{
-			"taskId": 125,
-			"taskTitle": "Create Placeholder Providers and Complete Testing",
-			"complexityScore": 5,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Complete the implementation with placeholders and testing: 1) Create OpenAIProvider placeholder class extending BaseProvider with 'not yet implemented' errors, 2) Create GoogleProvider placeholder class with similar structure, 3) Implement MockProvider in tests/mocks directory with configurable responses and behavior simulation, 4) Write comprehensive unit tests for TaskParser covering all methods and edge cases, 5) Create integration tests for the complete parse-prd workflow ensuring 80% code coverage. Follow kebab-case naming convention for test files.",
-			"reasoning": "This task involves creating placeholder implementations and a comprehensive test suite. While the placeholder providers are simple, creating a good MockProvider and comprehensive tests requires understanding the entire system architecture and ensuring all edge cases are covered."
-		}
-	]
-}

.taskmaster/reports/tm-core-complexity.json

@@ -1,77 +0,0 @@
-{
-	"meta": {
-		"generatedAt": "2025-08-06T12:15:01.327Z",
-		"tasksAnalyzed": 8,
-		"totalTasks": 11,
-		"analysisCount": 8,
-		"thresholdScore": 5,
-		"projectName": "Taskmaster",
-		"usedResearch": false
-	},
-	"complexityAnalysis": [
-		{
-			"taskId": 118,
-			"taskTitle": "Create AI Provider Base Architecture",
-			"complexityScore": 4,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Break down the conversion of base-provider.js to TypeScript BaseProvider class: 1) Convert to TypeScript and define IAIProvider interface, 2) Implement abstract class with core properties, 3) Define abstract methods and Template Method pattern, 4) Add retry logic with exponential backoff, 5) Implement validation and logging. Focus on maintaining compatibility with existing provider pattern while adding type safety.",
-			"reasoning": "The codebase already has a well-established BaseAIProvider class in JavaScript. Converting to TypeScript mainly involves adding type definitions and ensuring the existing pattern is preserved. The complexity is moderate because the pattern is already proven in the codebase."
-		},
-		{
-			"taskId": 119,
-			"taskTitle": "Implement Provider Factory with Dynamic Imports",
-			"complexityScore": 3,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Create ProviderFactory implementation: 1) Set up class structure and types, 2) Implement provider selection switch statement, 3) Add dynamic imports for tree-shaking, 4) Handle provider instantiation with config, 5) Add comprehensive error handling. The existing PROVIDERS registry pattern should guide the implementation.",
-			"reasoning": "The codebase already uses a dual registry pattern (static PROVIDERS and dynamic ProviderRegistry). Creating a factory is straightforward as the provider registration patterns are well-established. Dynamic imports are already used in the codebase."
-		},
-		{
-			"taskId": 120,
-			"taskTitle": "Implement Anthropic Provider",
-			"complexityScore": 3,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Implement AnthropicProvider following existing patterns: 1) Create class structure with imports, 2) Implement constructor and client initialization, 3) Add generateCompletion with Claude API integration, 4) Implement token calculation and utility methods, 5) Add error handling and exports. Use the existing anthropic.js provider as reference.",
-			"reasoning": "AnthropicProvider already exists in the codebase with full implementation. This task essentially involves adapting the existing implementation to match the new TypeScript architecture, making it relatively straightforward."
-		},
-		{
-			"taskId": 121,
-			"taskTitle": "Create Prompt Builder and Task Parser",
-			"complexityScore": 6,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Build prompt system and parser: 1) Create PromptBuilder with template methods, 2) Implement TaskParser with dependency injection, 3) Add parsePRD core logic with file reading, 4) Implement task enrichment and metadata, 5) Add comprehensive error handling. Leverage the existing prompt management system in src/prompts/.",
-			"reasoning": "While the codebase has a sophisticated prompt management system, creating a new PromptBuilder and TaskParser requires understanding the existing prompt templates, JSON schema validation, and integration with the AI provider system. The task involves significant new code."
-		},
-		{
-			"taskId": 122,
-			"taskTitle": "Implement Configuration Management",
-			"complexityScore": 5,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Create ConfigManager with validation: 1) Define Zod schema for IConfiguration, 2) Implement constructor with defaults, 3) Add validate method with error handling, 4) Create type-safe get method with generics, 5) Implement getAll and finalize exports. Reference existing config-manager.js for patterns.",
-			"reasoning": "The codebase has an existing config-manager.js with sophisticated configuration handling. Adding Zod validation and TypeScript generics adds complexity, but the existing patterns provide a solid foundation."
-		},
-		{
-			"taskId": 123,
-			"taskTitle": "Create Utility Functions and Error Handling",
-			"complexityScore": 2,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Implement utilities and error handling: 1) Create ID generation module with unique formats, 2) Build TaskMasterError base class, 3) Add error sanitization for security, 4) Implement development-only logging, 5) Create specialized error subclasses. Keep implementation simple and focused.",
-			"reasoning": "This is a straightforward utility implementation task. The codebase already has error handling patterns, and ID generation is a simple algorithmic task. The main work is creating clean, reusable utilities."
-		},
-		{
-			"taskId": 124,
-			"taskTitle": "Implement TaskMasterCore Facade",
-			"complexityScore": 7,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Create main facade class: 1) Set up TaskMasterCore structure with imports, 2) Implement lazy initialization logic, 3) Add parsePRD coordination method, 4) Implement getTasks and other facade methods, 5) Create factory function and exports. This ties together all other components into a cohesive API.",
-			"reasoning": "This is the most complex task as it requires understanding and integrating all other components. The facade must coordinate between configuration, providers, storage, and parsing while maintaining a clean API. It's the architectural keystone of the system."
-		},
-		{
-			"taskId": 125,
-			"taskTitle": "Create Placeholder Providers and Complete Testing",
-			"complexityScore": 5,
-			"recommendedSubtasks": 5,
-			"expansionPrompt": "Implement testing infrastructure: 1) Create OpenAIProvider placeholder, 2) Create GoogleProvider placeholder, 3) Build MockProvider for testing, 4) Write TaskParser unit tests, 5) Create integration tests for parse-prd flow. Follow the existing test patterns in tests/ directory.",
-			"reasoning": "While creating placeholder providers is simple, the testing infrastructure requires understanding Jest with ES modules, mocking patterns, and comprehensive test coverage. The existing test structure provides good examples to follow."
-		}
-	]
-}

.taskmaster/state.json

@@ -1,6 +1,6 @@
 {
 	"currentTag": "master",
-	"lastSwitched": "2025-09-12T22:25:27.535Z",
+	"lastSwitched": "2025-07-22T13:32:03.558Z",
 	"branchTagMapping": {
 		"v017-adds": "v017-adds",
 		"next": "next"

.taskmaster/tasks/task_001_tm-start.txt

@@ -1,34 +0,0 @@
-# Task ID: 1
-# Title: Create start command class structure
-# Status: pending
-# Dependencies: None
-# Priority: high
-# Description: Create the basic structure for the start command following the Commander class pattern
-# Details:
-Create a new file `apps/cli/src/commands/start.command.ts` based on the existing list.command.ts pattern. Implement the command class with proper command registration, description, and argument handling for the task_id parameter. The class should extend the base Command class and implement the required methods.
-
-Example structure:
-```typescript
-import { Command } from 'commander';
-import { BaseCommand } from './base.command';
-
-export class StartCommand extends BaseCommand {
-  public register(program: Command): void {
-    program
-      .command('start')
-      .alias('tm start')
-      .description('Start implementing a task using claude-code')
-      .argument('<task_id>', 'ID of the task to start')
-      .action(async (taskId: string) => {
-        await this.execute(taskId);
-      });
-  }
-
-  public async execute(taskId: string): Promise<void> {
-    // Implementation will be added in subsequent tasks
-  }
-}
-```
-
-# Test Strategy:
-Verify the command registers correctly by running the CLI with --help and checking that the start command appears with proper description and arguments. Test the basic structure by ensuring the command can be invoked without errors.

.taskmaster/tasks/task_002_tm-start.txt

@@ -1,26 +0,0 @@
-# Task ID: 2
-# Title: Register start command in CLI
-# Status: pending
-# Dependencies: 7
-# Priority: high
-# Description: Register the start command in the CLI application
-# Details:
-Update the CLI application to register the new start command. This involves importing the StartCommand class and adding it to the commands array in the CLI initialization.
-
-In `apps/cli/src/index.ts` or the appropriate file where commands are registered:
-
-```typescript
-import { StartCommand } from './commands/start.command';
-
-// Add StartCommand to the commands array
-const commands = [
-  // ... existing commands
-  new StartCommand(),
-];
-
-// Register all commands
-commands.forEach(command => command.register(program));
-```
-
-# Test Strategy:
-Verify the command is correctly registered by running the CLI with --help and checking that the start command appears in the list of available commands.

.taskmaster/tasks/task_003_tm-start.txt

@@ -1,32 +0,0 @@
-# Task ID: 3
-# Title: Create standardized prompt builder
-# Status: pending
-# Dependencies: 1
-# Priority: medium
-# Description: Implement a function to build the standardized prompt for claude-code based on the task details
-# Details:
-Create a function in the StartCommand class that builds the standardized prompt according to the template provided in the PRD. The prompt should include instructions for Claude to first run `tm show <task_id>` to get task details, and then implement the required changes.
-
-```typescript
-private buildPrompt(taskId: string): string {
-  return `You are an AI coding assistant with access to this repository's codebase.
-
-First, run this command to get the task details:
-tm show ${taskId}
-
-Then implement the task with these requirements:
-- Make the SMALLEST number of code changes possible
-- Follow ALL existing patterns in the codebase (you have access to analyze the code)
-- Do NOT over-engineer the solution
-- Use existing files/functions/patterns wherever possible
-- When complete, print: COMPLETED: <brief summary of changes>
-
-Begin by running tm show ${taskId} to understand what needs to be implemented.`;
-}
-```
-<info added on 2025-09-12T02:40:01.812Z>
-The prompt builder function will handle task context retrieval by instructing Claude to use the task-master show command. This approach ensures Claude has access to all necessary task details before implementation begins. The command syntax "tm show ${taskId}" embedded in the prompt will direct Claude to first gather the complete task context, including description, requirements, and any existing implementation details, before proceeding with code changes.
-</info added on 2025-09-12T02:40:01.812Z>
-
-# Test Strategy:
-Verify the prompt is correctly formatted by calling the function with a sample task ID and checking that the output matches the expected template with the task ID properly inserted.

.taskmaster/tasks/task_004_tm-start.txt

@@ -1,36 +0,0 @@
-# Task ID: 4
-# Title: Implement claude-code executor
-# Status: pending
-# Dependencies: 3
-# Priority: high
-# Description: Add functionality to execute the claude-code command with the built prompt
-# Details:
-Implement the functionality to execute the claude command with the built prompt. This should use Node.js child_process.exec() to run the command directly in the terminal.
-
-```typescript
-import { exec } from 'child_process';
-
-// Inside execute method, after task validation
-private async executeClaude(prompt: string): Promise<void> {
-  console.log('Starting claude-code to implement the task...');
-  
-  try {
-    // Execute claude with the prompt
-    const claudeCommand = `claude "${prompt.replace(/"/g, '\\"')}"`;
-    
-    // Use execSync to wait for the command to complete
-    const { execSync } = require('child_process');
-    execSync(claudeCommand, { stdio: 'inherit' });
-    
-    console.log('Claude session completed.');
-  } catch (error) {
-    console.error('Error executing claude-code:', error.message);
-    process.exit(1);
-  }
-}
-```
-
-Then call this method from the execute method after building the prompt.
-
-# Test Strategy:
-Test by running the command with a valid task ID and verifying that the claude command is executed with the correct prompt. Check that the command handles errors appropriately if claude-code is not available.

.taskmaster/tasks/task_007_tm-start.txt

@@ -1,49 +0,0 @@
-# Task ID: 7
-# Title: Integrate execution flow in start command
-# Status: pending
-# Dependencies: 3, 4
-# Priority: high
-# Description: Connect all the components to implement the complete execution flow for the start command
-# Details:
-Update the execute method in the StartCommand class to integrate all the components and implement the complete execution flow as described in the PRD:
-1. Validate task exists
-2. Build standardized prompt
-3. Execute claude-code
-4. Check git status for changes
-5. Auto-mark task as done if changes detected
-
-```typescript
-public async execute(taskId: string): Promise<void> {
-  // Validate task exists
-  const core = await createTaskMasterCore();
-  const task = await core.tasks.getById(parseInt(taskId, 10));
-  
-  if (!task) {
-    console.error(`Task with ID ${taskId} not found`);
-    process.exit(1);
-  }
-  
-  // Build prompt
-  const prompt = this.buildPrompt(taskId);
-  
-  // Execute claude-code
-  await this.executeClaude(prompt);
-  
-  // Check git status
-  const changedFiles = await this.checkGitChanges();
-  
-  if (changedFiles.length > 0) {
-    console.log('\nChanges detected in the following files:');
-    changedFiles.forEach(file => console.log(`- ${file}`));
-    
-    // Auto-mark task as done
-    await this.markTaskAsDone(taskId);
-    console.log(`\nTask ${taskId} completed successfully and marked as done.`);
-  } else {
-    console.warn('\nNo changes detected after claude-code execution. Task not marked as done.');
-  }
-}
-```
-
-# Test Strategy:
-Test the complete execution flow by running the start command with a valid task ID and verifying that all steps are executed correctly. Test with both scenarios: when changes are detected and when no changes are detected.