docs: auto-update documentation based on changes in next branch

This PR was automatically generated to update documentation based on recent changes. Original commit: Tm start (#1200)\n\nCo-authored-by: Max Tuzzolino <maxtuzz@Maxs-MacBook-Pro.local>\nCo-authored-by: Claude <noreply@anthropic.com>\nCo-authored-by: Max Tuzzolino <max.tuzsmith@gmail.com>\nCo-authored-by: Ralph Khreish <35776126+Crunchyman-ralph@users.noreply.github.com>\n\n Co-authored-by: Claude <claude-assistant@anthropic.com>
docs: Auto-update and format models.md
2025-09-19 22:16:52 +00:00 · 2025-09-19 22:08:36 +00:00 · 2025-09-20 00:08:20 +02:00 · 2025-09-18 23:39:50 +02:00 · 2025-09-18 21:17:55 +00:00 · 2025-09-18 23:12:08 +02:00
425 changed files with 62902 additions and 7764 deletions
--- a/.changeset/clever-spies-obey.md
+++ b/.changeset/clever-spies-obey.md
@@ -0,0 +1,8 @@
 ---
 "task-master-ai": minor
 ---
 No longer need --package=task-master-ai in mcp server
 - A lot of users were having issues with Taskmaster and usually a simple fix was to remove --package from your mcp.json
 - we now bundle our whole package, so we no longer need the --package
--- a/.changeset/config.json
+++ b/.changeset/config.json
@@ -2,13 +2,18 @@
  "$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",
-  "updateInternalDependencies": "patch",
+  "ignore": [
-  "ignore": []
+    "docs",
    "@tm/cli",
    "@tm/core",
    "@tm/build-config"
  ]
 }
--- a/.changeset/dry-dogs-rule.md
+++ b/.changeset/dry-dogs-rule.md
@@ -0,0 +1,8 @@
 ---
 "task-master-ai": minor
 ---
 Add new `task-master start` command for automated task execution with Claude Code
 - You can now start working on tasks directly by running `task-master start <task-id>` which will automatically launch Claude Code with a comprehensive prompt containing all task details, implementation guidelines, and context.
 - `task-master start` will automatically detect next-task when no ID is provided.
--- a/.changeset/easy-deer-heal.md
+++ b/.changeset/easy-deer-heal.md
@@ -0,0 +1,5 @@
 ---
 "task-master-ai": minor
 ---
 Testing one more pre-release iteration
--- a/.changeset/fuzzy-brooms-mate.md
+++ b/.changeset/fuzzy-brooms-mate.md
@@ -1,7 +0,0 @@
 ---
 "task-master-ai": patch
 ---
 Fix expand task generating unrelated generic subtasks
 Fixed an issue where `task-master expand` would generate generic authentication-related subtasks regardless of the parent task context when using complexity reports. The expansion now properly includes the parent task details alongside any expansion guidance.
--- a/.changeset/fuzzy-words-count.md
+++ b/.changeset/fuzzy-words-count.md
@@ -1,8 +0,0 @@
 ---
 "task-master-ai": patch
 ---
 Fix scope-up/down prompts to include all required fields for better AI model compatibility
 - Added missing `priority` field to scope adjustment prompts to prevent validation errors with Claude-code and other models
 - Ensures generated JSON includes all fields required by the schema
--- a/.changeset/giant-clouds-remain.md
+++ b/.changeset/giant-clouds-remain.md
@@ -0,0 +1,5 @@
 ---
 "task-master-ai": minor
 ---
 Move from javascript to typescript, not a full refactor but we now have a typescript environment and are moving our javascript commands slowly into typescript
--- a/.changeset/honest-steaks-check.md
+++ b/.changeset/honest-steaks-check.md
@@ -1,9 +0,0 @@
 ---
 "task-master-ai": minor
 ---
 Enhanced Claude Code provider with codebase-aware task generation
 - Added automatic codebase analysis for Claude Code provider in `parse-prd`, `expand-task`, and `analyze-complexity` commands
 - When using Claude Code as the AI provider, Task Master now instructs the AI to analyze the project structure, existing implementations, and patterns before generating tasks or subtasks
 - Tasks and subtasks generated by Claude Code are now informed by actual codebase analysis, resulting in more accurate and contextual outputs
--- a/.changeset/moody-oranges-slide.md
+++ b/.changeset/moody-oranges-slide.md
@@ -0,0 +1,5 @@
 ---
 "task-master-ai": minor
 ---
 Test out the RC
--- a/.changeset/odd-otters-tan.md
+++ b/.changeset/odd-otters-tan.md
@@ -0,0 +1,5 @@
 ---
 "@tm/cli": minor
 ---
 testing this stuff out to see how the release candidate works with monorepo
--- a/.changeset/pre.json
+++ b/.changeset/pre.json
@@ -1,13 +1,19 @@
 {
-  "mode": "exit",
+  "mode": "pre",
  "tag": "rc",
  "initialVersions": {
-    "task-master-ai": "0.23.0",
+    "task-master-ai": "0.26.0",
-    "extension": "0.23.0"
+    "@tm/cli": "0.26.0",
    "docs": "0.0.2",
    "extension": "0.24.2",
    "@tm/build-config": "1.0.0",
    "@tm/core": "0.26.0"
  },
  "changesets": [
-    "fuzzy-words-count",
+    "easy-deer-heal",
-    "tender-trams-refuse",
+    "moody-oranges-slide",
-    "vast-sites-leave"
+    "odd-otters-tan",
    "shiny-regions-teach",
    "wild-ears-look"
  ]
 }
--- a/.changeset/pretty-planes-cross.md
+++ b/.changeset/pretty-planes-cross.md
@@ -0,0 +1,30 @@
 ---
 "task-master-ai": minor
 ---
 Add grok-cli as a provider. You can now use Grok models with Task Master by setting the `GROK_CLI_API_KEY` environment variable.
 ## Setup Instructions
 1. **Get your Grok API key** from [console.x.ai](https://console.x.ai)
 2. **Set the environment variable**:
   ```bash
   export GROK_CLI_API_KEY="your-api-key-here"
   ```
 3. **Configure Task Master to use Grok**:
   ```bash
   task-master models --set-main grok-beta
   # or
   task-master models --set-research grok-beta
   # or
   task-master models --set-fallback grok-beta
   ```
 ## Available Models
 - `grok-beta` - Latest Grok model
 - `grok-vision-beta` - Grok with vision capabilities
 The Grok CLI provider integrates with xAI's Grok models and can also use the local Grok CLI configuration file (`~/.grok/user-settings.json`) if available.
 ## Credits
 Built using the [grok-cli](https://github.com/superagent-ai/grok-cli) by Superagent AI for seamless integration with xAI's Grok models.
--- a/.changeset/shiny-regions-teach.md
+++ b/.changeset/shiny-regions-teach.md
@@ -0,0 +1,5 @@
 ---
 "task-master-ai": minor
 ---
@tm/cli: add auto-update functionality to every command
--- a/.changeset/shy-tips-brake.md
+++ b/.changeset/shy-tips-brake.md
@@ -0,0 +1,7 @@
 ---
 "extension": minor
 ---
 Add "Start Task" button to VS Code extension for seamless Claude Code integration
 You can now click a "Start Task" button directly in the Task Master extension which will open a new terminal and automatically execute the task using Claude Code. This provides a seamless workflow from viewing tasks in the extension to implementing them without leaving VS Code.
--- a/.changeset/tender-trams-refuse.md
+++ b/.changeset/tender-trams-refuse.md
@@ -1,8 +0,0 @@
 ---
 "task-master-ai": patch
 ---
 Fix MCP scope-up/down tools not finding tasks
 - Fixed task ID parsing in MCP layer - now correctly converts string IDs to numbers
 - scope_up_task and scope_down_task MCP tools now work properly
--- a/.changeset/upset-ants-return.md
+++ b/.changeset/upset-ants-return.md
@@ -1,5 +0,0 @@
 ---
 "extension": patch
 ---
 Fix issues with some users not being able to connect to Taskmaster MCP server while using the extension
--- a/.changeset/vast-sites-leave.md
+++ b/.changeset/vast-sites-leave.md
@@ -1,11 +0,0 @@
 ---
 "task-master-ai": patch
 ---
 Improve AI provider compatibility for JSON generation
 - Fixed schema compatibility issues between Perplexity and OpenAI o3 models
 - Removed nullable/default modifiers from Zod schemas for broader compatibility
 - Added automatic JSON repair for malformed AI responses (handles cases like missing array values)
 - Perplexity now uses JSON mode for more reliable structured output
 - Post-processing handles default values separately from schema validation
--- a/.changeset/weak-toes-clap.md
+++ b/.changeset/weak-toes-clap.md
@@ -0,0 +1,5 @@
 ---
 "task-master-ai": minor
 ---
 Fix Grok model configuration validation and update deprecated Claude fallback model. Grok models now properly support their full 131K token capacity, and the fallback model has been upgraded to Claude Sonnet 4 for better performance and future compatibility.
--- a/.changeset/wide-actors-report.md
+++ b/.changeset/wide-actors-report.md
@@ -1,59 +0,0 @@
 ---
 "task-master-ai": minor
 ---
 Add Claude Code subagent support with task-orchestrator, task-executor, and task-checker
 ## New Claude Code Agents
 Added specialized agents for Claude Code users to enable parallel task execution, intelligent task orchestration, and quality assurance:
 ### task-orchestrator
 Coordinates and manages the execution of Task Master tasks with intelligent dependency analysis:
 - Analyzes task dependencies to identify parallelizable work
 - Deploys multiple task-executor agents for concurrent execution
 - Monitors task completion and updates the dependency graph
 - Automatically identifies and starts newly unblocked tasks
 ### task-executor  
 Handles the actual implementation of individual tasks:
 - Executes specific tasks identified by the orchestrator
 - Works on concrete implementation rather than planning
 - Updates task status and logs progress
 - Can work in parallel with other executors on independent tasks
 ### task-checker
 Verifies that completed tasks meet their specifications:
 - Reviews tasks marked as 'review' status
 - Validates implementation against requirements
 - Runs tests and checks for best practices
 - Ensures quality before marking tasks as 'done'
 ## Installation
 When using the Claude profile (`task-master rules add claude`), the agents are automatically installed to `.claude/agents/` directory.
 ## Usage Example
 ```bash
 # In Claude Code, after initializing a project with tasks:
 # Use task-orchestrator to analyze and coordinate work
 # The orchestrator will:
 # 1. Check task dependencies
 # 2. Identify tasks that can run in parallel  
 # 3. Deploy executors for available work
 # 4. Monitor progress and deploy new executors as tasks complete
 # Use task-executor for specific task implementation
 # When the orchestrator identifies task 2.3 needs work:
 # The executor will implement that specific task
 ```
 ## Benefits
 - **Parallel Execution**: Multiple independent tasks can be worked on simultaneously
 - **Intelligent Scheduling**: Orchestrator understands dependencies and optimizes execution order
 - **Separation of Concerns**: Planning (orchestrator) is separated from execution (executor)
 - **Progress Tracking**: Real-time updates as tasks are completed
 - **Automatic Progression**: As tasks complete, newly unblocked tasks are automatically started
--- a/.changeset/wild-ears-look.md
+++ b/.changeset/wild-ears-look.md
@@ -0,0 +1,5 @@
 ---
 "extension": minor
 ---
 Added a Start Build button to the VSCODE Task Properties Right Panel
--- a/.claude/commands/dedupe.md
+++ b/.claude/commands/dedupe.md
@@ -0,0 +1,38 @@
 ---
 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 \[Task Master Bot\]
 ---
--- a/.claude/commands/tm/remove-subtasks/remove-all-subtasks.md
+++ b/.claude/commands/tm/remove-subtasks/remove-all-subtasks.md
--- a/.claude/commands/tm/remove-subtasks/remove-subtasks.md
+++ b/.claude/commands/tm/remove-subtasks/remove-subtasks.md
--- a/.github/scripts/auto-close-duplicates.mjs
+++ b/.github/scripts/auto-close-duplicates.mjs
@@ -0,0 +1,259 @@
 #!/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 ${candidateCount} candidates for auto-close`
 	);
 }
 autoCloseDuplicates().catch(console.error);
--- a/.github/scripts/backfill-duplicate-comments.mjs
+++ b/.github/scripts/backfill-duplicate-comments.mjs
@@ -0,0 +1,178 @@
 #!/usr/bin/env node
 async function githubRequest(endpoint, token, method = 'GET', body) {
 	const response = await fetch(`https://api.github.com${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);
--- a/.github/scripts/pre-release.mjs
+++ b/.github/scripts/pre-release.mjs
@@ -1,54 +0,0 @@
 #!/usr/bin/env node
 import { readFileSync, existsSync } from 'node:fs';
 import { join, dirname } from 'node:path';
 import { fileURLToPath } from 'node:url';
 import {
 	findRootDir,
 	runCommand,
 	getPackageVersion,
 	createAndPushTag
 } from './utils.mjs';
 const __filename = fileURLToPath(import.meta.url);
 const __dirname = dirname(__filename);
 const rootDir = findRootDir(__dirname);
 const extensionPkgPath = join(rootDir, 'apps', 'extension', 'package.json');
 console.log('🚀 Starting pre-release process...');
 // Check if we're in RC mode
 const preJsonPath = join(rootDir, '.changeset', 'pre.json');
 if (!existsSync(preJsonPath)) {
 	console.error('⚠️  Not in RC mode. Run "npx changeset pre enter rc" first.');
 	process.exit(1);
 }
 try {
 	const preJson = JSON.parse(readFileSync(preJsonPath, 'utf8'));
 	if (preJson.tag !== 'rc') {
 		console.error(`⚠️  Not in RC mode. Current tag: ${preJson.tag}`);
 		process.exit(1);
 	}
 } catch (error) {
 	console.error('Failed to read pre.json:', error.message);
 	process.exit(1);
 }
 // Get current extension version
 const extensionVersion = getPackageVersion(extensionPkgPath);
 console.log(`Extension version: ${extensionVersion}`);
 // Run changeset publish for npm packages
 console.log('📦 Publishing npm packages...');
 runCommand('npx', ['changeset', 'publish']);
 // Create tag for extension pre-release if it doesn't exist
 const extensionTag = `extension-rc@${extensionVersion}`;
 const tagCreated = createAndPushTag(extensionTag);
 if (tagCreated) {
 	console.log('This will trigger the extension-pre-release workflow...');
 }
 console.log('✅ Pre-release process completed!');
--- a/.github/workflows/auto-close-duplicates.yml
+++ b/.github/workflows/auto-close-duplicates.yml
@@ -0,0 +1,31 @@
 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 }}
--- a/.github/workflows/backfill-duplicate-comments.yml
+++ b/.github/workflows/backfill-duplicate-comments.yml
@@ -0,0 +1,46 @@
 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 }}
--- a/.github/workflows/ci.yml
+++ b/.github/workflows/ci.yml
@@ -9,70 +9,124 @@ on:
    branches:
      - main
      - next
  workflow_dispatch:
 concurrency:
  group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
  cancel-in-progress: true
 permissions:
  contents: read
 env:
  DO_NOT_TRACK: 1
  NODE_ENV: development
 jobs:
-  setup:
+  # Fast checks that can run in parallel
    runs-on: ubuntu-latest
    steps:
      - uses: actions/checkout@v4
        with:
          fetch-depth: 0
      - uses: actions/setup-node@v4
        with:
          node-version: 20
          cache: 'npm'
      - 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
+    name: Format Check
    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: Restore node_modules
+      - name: Install dependencies
-        uses: actions/cache@v4
+        run: npm install --frozen-lockfile --prefer-offline
-        with:
+        timeout-minutes: 5
          path: node_modules
          key: ${{ runner.os }}-node-modules-${{ hashFiles('**/package-lock.json') }}
      - name: Format Check
        run: npm run format-check
        env:
          FORCE_COLOR: 1
-  test:
+  typecheck:
-    needs: setup
+    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: Restore node_modules
+      - name: Install dependencies
-        uses: actions/cache@v4
+        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:
-          path: node_modules
+          fetch-depth: 2
-          key: ${{ runner.os }}-node-modules-${{ hashFiles('**/package-lock.json') }}
+
      - 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
    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
        with:
          name: build-artifacts
          path: dist/
      - name: Run Tests
        run: |
@@ -81,7 +135,6 @@ jobs:
          NODE_ENV: test
          CI: true
          FORCE_COLOR: 1
        timeout-minutes: 10
      - name: Upload Test Results
        if: always()
--- a/.github/workflows/claude-dedupe-issues.yml
+++ b/.github/workflows/claude-dedupe-issues.yml
@@ -0,0 +1,81 @@
 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}: ${BODY}"
          fi
--- a/.github/workflows/claude-docs-trigger.yml
+++ b/.github/workflows/claude-docs-trigger.yml
@@ -0,0 +1,57 @@
 name: Trigger Claude Documentation Update
 on:
  push:
    branches:
      - next
    paths-ignore:
      - "apps/docs/**"
      - "*.md"
      - ".github/workflows/**"
 jobs:
  trigger-docs-update:
    # Only run if changes were merged (not direct pushes from bots)
    if: github.actor != 'github-actions[bot]' && github.actor != 'dependabot[bot]'
    runs-on: ubuntu-latest
    permissions:
      contents: read
      actions: write
    steps:
      - name: Checkout repository
        uses: actions/checkout@v4
        with:
          fetch-depth: 2 # Need previous commit for comparison
      - name: Get changed files
        id: changed-files
        run: |
          echo "Changed files in this push:"
          git diff --name-only HEAD^ HEAD | tee changed_files.txt
          # Store changed files for Claude to analyze (escaped for JSON)
          CHANGED_FILES=$(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=${{ steps.changed-files.outputs.commit_diff }}
--- a/.github/workflows/claude-docs-updater.yml
+++ b/.github/workflows/claude-docs-updater.yml
@@ -0,0 +1,145 @@
 name: Claude Documentation Updater
 on:
  workflow_dispatch:
    inputs:
      commit_sha:
        description: 'The commit SHA that triggered this update'
        required: true
        type: string
      commit_message:
        description: 'The commit message'
        required: true
        type: string
      changed_files:
        description: 'List of changed files'
        required: true
        type: string
      commit_diff:
        description: 'Diff summary of changes'
        required: true
        type: string
 jobs:
  update-docs:
    runs-on: ubuntu-latest
    permissions:
      contents: write
      pull-requests: write
      issues: write
    steps:
      - name: Checkout repository
        uses: actions/checkout@v4
        with:
          ref: next
          fetch-depth: 0 # Need full history to checkout specific commit
      - name: Create docs update branch
        id: create-branch
        run: |
          BRANCH_NAME="docs/auto-update-$(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"
--- a/.github/workflows/claude-issue-triage.yml
+++ b/.github/workflows/claude-issue-triage.yml
@@ -0,0 +1,107 @@
 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 }}
--- a/.github/workflows/claude.yml
+++ b/.github/workflows/claude.yml
@@ -0,0 +1,36 @@
 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: ${{ secrets.ANTHROPIC_API_KEY }}
--- a/.github/workflows/extension-pre-release.yml
+++ b/.github/workflows/extension-pre-release.yml
@@ -1,110 +0,0 @@
 name: Extension Pre-Release
 on:
  push:
    tags:
      - "extension-rc@*"
 permissions:
  contents: write
 concurrency: extension-pre-release-${{ github.ref }}
 jobs:
  publish-extension-rc:
    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: |
            ${{ runner.os }}-node-
      - name: Install Extension Dependencies
        working-directory: apps/extension
        run: npm ci
        timeout-minutes: 5
      - name: Type Check Extension
        working-directory: apps/extension
        run: npm run check-types
        env:
          FORCE_COLOR: 1
      - name: Build Extension
        working-directory: apps/extension
        run: npm run build
        env:
          FORCE_COLOR: 1
      - name: Package Extension
        working-directory: apps/extension
        run: npm run package
        env:
          FORCE_COLOR: 1
      - name: Create VSIX Package (Pre-Release)
        working-directory: apps/extension/vsix-build
        run: npx vsce package --no-dependencies --pre-release
        env:
          FORCE_COLOR: 1
      - name: Get VSIX filename
        id: vsix-info
        working-directory: apps/extension/vsix-build
        run: |
          VSIX_FILE=$(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: $VSIX_FILE"
      - name: Publish to VS Code Marketplace (Pre-Release)
        working-directory: apps/extension/vsix-build
        run: npx vsce publish --packagePath "${{ steps.vsix-info.outputs.vsix-filename }}" --pre-release
        env:
          VSCE_PAT: ${{ secrets.VSCE_PAT }}
          FORCE_COLOR: 1
      - name: Install Open VSX CLI
        run: npm install -g ovsx
      - name: Publish to Open VSX Registry (Pre-Release)
        working-directory: apps/extension/vsix-build
        run: ovsx publish "${{ steps.vsix-info.outputs.vsix-filename }}" --pre-release
        env:
          OVSX_PAT: ${{ secrets.OVSX_PAT }}
          FORCE_COLOR: 1
      - name: Upload Build Artifacts
        uses: actions/upload-artifact@v4
        with:
          name: extension-pre-release-${{ github.ref_name }}
          path: |
            apps/extension/vsix-build/*.vsix
            apps/extension/dist/
          retention-days: 30
  notify-success:
    needs: publish-extension-rc
    if: success()
    runs-on: ubuntu-latest
    steps:
      - name: Success Notification
        run: |
          echo "🚀 Extension ${{ github.ref_name }} successfully published as pre-release!"
          echo "📦 Available on VS Code Marketplace (Pre-Release)"
          echo "🌍 Available on Open VSX Registry (Pre-Release)"
--- a/.github/workflows/log-issue-events.yml
+++ b/.github/workflows/log-issue-events.yml
@@ -0,0 +1,176 @@
 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}: ${BODY}"
          fi
--- a/.github/workflows/pre-release.yml
+++ b/.github/workflows/pre-release.yml
@@ -36,9 +36,26 @@ jobs:
      - name: Enter RC mode (if not already in RC mode)
        run: |
-          # ensure we’re in the right pre-mode (tag "rc")
+          # Check if we're in pre-release mode with the "rc" tag
-          if [ ! -f .changeset/pre.json ] \
+          if [ -f .changeset/pre.json ]; then
-            || [ "$(jq -r '.tag' .changeset/pre.json 2>/dev/null || echo '')" != "rc" ]; 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..."
            npx changeset pre enter rc
          fi
@@ -48,15 +65,27 @@ 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: node ./.github/scripts/pre-release.mjs
+          publish: npx changeset publish
        env:
          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
          NPM_TOKEN: ${{ secrets.NPM_TOKEN }}
          VSCE_PAT: ${{ secrets.VSCE_PAT }}
          OVSX_PAT: ${{ secrets.OVSX_PAT }}
      - name: Commit & Push changes
        uses: actions-js/push@master
--- a/.github/workflows/release.yml
+++ b/.github/workflows/release.yml
@@ -22,7 +22,7 @@ jobs:
      - uses: actions/setup-node@v4
        with:
          node-version: 20
-          cache: 'npm'
+          cache: "npm"
      - name: Cache node_modules
        uses: actions/cache@v4
@@ -41,6 +41,15 @@ jobs:
      - 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: Create Release Pull Request or Publish to npm
        uses: changesets/action@v1
        with:
--- a/.github/workflows/weekly-metrics-discord.yml
+++ b/.github/workflows/weekly-metrics-discord.yml
@@ -0,0 +1,96 @@
 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: write
  pull-requests: read
 jobs:
  weekly-metrics:
    runs-on: ubuntu-latest
    env:
      DISCORD_WEBHOOK: ${{ secrets.DISCORD_METRICS_WEBHOOK }}
    steps:
      - name: Get dates for last week
        run: |
          # Last 7 days
          first_day=$(date -d "7 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
      - 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
      - name: Generate PR 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_metrics.md
      - name: Parse metrics
        id: metrics
        run: |
          # Parse the metrics from the generated markdown files
          if [ -f "issue_metrics.md" ]; then
            # Extract key metrics using grep/awk
            AVG_TIME_TO_FIRST_RESPONSE=$(grep -A 1 "Average time to first response" issue_metrics.md | tail -1 | xargs || echo "N/A")
            AVG_TIME_TO_CLOSE=$(grep -A 1 "Average time to close" issue_metrics.md | tail -1 | xargs || echo "N/A")
            NUM_ISSUES_CREATED=$(grep -oP '\d+(?= issues created)' issue_metrics.md || echo "0")
            NUM_ISSUES_CLOSED=$(grep -oP '\d+(?= issues closed)' issue_metrics.md || echo "0")
          fi
          if [ -f "pr_metrics.md" ]; then
            PR_AVG_TIME_TO_MERGE=$(grep -A 1 "Average time to close" pr_metrics.md | tail -1 | xargs || echo "N/A")
            NUM_PRS_CREATED=$(grep -oP '\d+(?= pull requests created)' pr_metrics.md || echo "0")
            NUM_PRS_MERGED=$(grep -oP '\d+(?= pull requests closed)' pr_metrics.md || echo "0")
          fi
          # Set outputs for Discord action
          echo "issues_created=${NUM_ISSUES_CREATED:-0}" >> $GITHUB_OUTPUT
          echo "issues_closed=${NUM_ISSUES_CLOSED:-0}" >> $GITHUB_OUTPUT
          echo "prs_created=${NUM_PRS_CREATED:-0}" >> $GITHUB_OUTPUT
          echo "prs_merged=${NUM_PRS_MERGED:-0}" >> $GITHUB_OUTPUT
          echo "avg_first_response=${AVG_TIME_TO_FIRST_RESPONSE:-N/A}" >> $GITHUB_OUTPUT
          echo "avg_time_to_close=${AVG_TIME_TO_CLOSE:-N/A}" >> $GITHUB_OUTPUT
          echo "pr_avg_merge_time=${PR_AVG_TIME_TO_MERGE:-N/A}" >> $GITHUB_OUTPUT
      - 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 }}**
            **🎯 Issues**
            • Created: ${{ steps.metrics.outputs.issues_created }}
            • Closed: ${{ steps.metrics.outputs.issues_closed }}
            **🔀 Pull Requests**
            • Created: ${{ steps.metrics.outputs.prs_created }}
            • Merged: ${{ steps.metrics.outputs.prs_merged }}
            **⏱️ Response Times**
            • First Response: ${{ steps.metrics.outputs.avg_first_response }}
            • Time to Close: ${{ steps.metrics.outputs.avg_time_to_close }}
            • PR Merge Time: ${{ steps.metrics.outputs.pr_avg_merge_time }}
          color: 0x58AFFF
          username: Task Master Metrics Bot
          avatar_url: https://raw.githubusercontent.com/eyaltoledano/claude-task-master/main/images/logo.png
--- a/.gitignore
+++ b/.gitignore
@@ -94,3 +94,6 @@ apps/extension/.vscode-test/
 # apps/extension
 apps/extension/vsix-build/
 # turbo
 .turbo
--- a/.kiro/settings/mcp.json
+++ b/.kiro/settings/mcp.json
@@ -2,7 +2,7 @@
 	"mcpServers": {
 		"task-master-ai": {
 			"command": "npx",
-			"args": ["-y", "--package=task-master-ai", "task-master-ai"],
+			"args": ["-y", "task-master-ai"],
 			"env": {
 				"ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
 				"PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",
--- a/.taskmaster/CLAUDE.md
+++ b/.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", "--package=task-master-ai", "task-master-ai"],
+      "args": ["-y", "task-master-ai"],
      "env": {
        "ANTHROPIC_API_KEY": "your_key_here",
        "PERPLEXITY_API_KEY": "your_key_here",
--- a/.taskmaster/config.json
+++ b/.taskmaster/config.json
@@ -1,9 +1,9 @@
 {
 	"models": {
 		"main": {
-			"provider": "anthropic",
+			"provider": "grok-cli",
-			"modelId": "claude-3-7-sonnet-20250219",
+			"modelId": "grok-4-latest",
-			"maxTokens": 120000,
+			"maxTokens": 131072,
 			"temperature": 0.2
 		},
 		"research": {
@@ -14,8 +14,8 @@
 		},
 		"fallback": {
 			"provider": "anthropic",
-			"modelId": "claude-3-5-sonnet-20241022",
+			"modelId": "claude-sonnet-4-20250514",
-			"maxTokens": 8192,
+			"maxTokens": 64000,
 			"temperature": 0.2
 		}
 	},
@@ -29,9 +29,15 @@
 		"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": {}
+	"claudeCode": {},
 	"grokCli": {
 		"timeout": 120000,
 		"workingDirectory": null,
 		"defaultModel": "grok-4-latest"
 	}
 }
--- a/.taskmaster/docs/MIGRATION-ROADMAP.md
+++ b/.taskmaster/docs/MIGRATION-ROADMAP.md
@@ -0,0 +1,188 @@
 # 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!
--- a/.taskmaster/docs/prd-tm-start.txt
+++ b/.taskmaster/docs/prd-tm-start.txt
@@ -0,0 +1,91 @@
 <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>
--- a/.taskmaster/docs/test-prd.txt
+++ b/.taskmaster/docs/test-prd.txt
@@ -0,0 +1,8 @@
 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.
--- a/.taskmaster/reports/task-complexity-report_tm-core-phase-1.json
+++ b/.taskmaster/reports/task-complexity-report_tm-core-phase-1.json
@@ -0,0 +1,77 @@
 {
 	"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."
 		}
 	]
 }
--- a/.taskmaster/reports/tm-core-complexity.json
+++ b/.taskmaster/reports/tm-core-complexity.json
@@ -0,0 +1,77 @@
 {
 	"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."
 		}
 	]
 }
--- a/.taskmaster/state.json
+++ b/.taskmaster/state.json
@@ -1,6 +1,6 @@
 {
 	"currentTag": "master",
-	"lastSwitched": "2025-08-01T14:09:25.838Z",
+	"lastSwitched": "2025-09-12T22:25:27.535Z",
 	"branchTagMapping": {
 		"v017-adds": "v017-adds",
 		"next": "next"
--- a/.taskmaster/tasks/task_001_tm-start.txt
+++ b/.taskmaster/tasks/task_001_tm-start.txt
@@ -0,0 +1,34 @@
 # 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.
--- a/.taskmaster/tasks/task_002_tm-start.txt
+++ b/.taskmaster/tasks/task_002_tm-start.txt
@@ -0,0 +1,26 @@
 # 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.
--- a/.taskmaster/tasks/task_003_tm-start.txt
+++ b/.taskmaster/tasks/task_003_tm-start.txt
@@ -0,0 +1,32 @@
 # 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 ${taskId}" embedded in the prompt will direct Claude to first gather the complete task context, including description, requirements, and any existing implementation details, before proceeding with code changes.
 </info added on 2025-09-12T02:40:01.812Z>
 # Test Strategy:
 Verify the prompt is correctly formatted by calling the function with a sample task ID and checking that the output matches the expected template with the task ID properly inserted.
--- a/.taskmaster/tasks/task_004_tm-start.txt
+++ b/.taskmaster/tasks/task_004_tm-start.txt
@@ -0,0 +1,36 @@
 # Task ID: 4
 # Title: Implement claude-code executor
 # Status: pending
 # Dependencies: 3
 # Priority: high
 # Description: Add functionality to execute the claude-code command with the built prompt
 # Details:
 Implement the functionality to execute the claude command with the built prompt. This should use Node.js child_process.exec() to run the command directly in the terminal.
 ```typescript
 import { exec } from 'child_process';
 // Inside execute method, after task validation
 private async executeClaude(prompt: string): Promise<void> {
  console.log('Starting claude-code to implement the task...');
  try {
    // Execute claude with the prompt
    const claudeCommand = `claude "${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.
--- a/.taskmaster/tasks/task_007_tm-start.txt
+++ b/.taskmaster/tasks/task_007_tm-start.txt
@@ -0,0 +1,49 @@
 # 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.
--- a/.taskmaster/tasks/tasks.json
+++ b/.taskmaster/tasks/tasks.json
--- a/.vscode/settings.json
+++ b/.vscode/settings.json
@@ -10,5 +10,18 @@
 	},
 	"json.format.enable": true,
-	"json.validate.enable": true
+	"json.validate.enable": true,
 	"typescript.tsdk": "node_modules/typescript/lib",
 	"[typescript]": {
 		"editor.defaultFormatter": "biomejs.biome"
 	},
 	"[typescriptreact]": {
 		"editor.defaultFormatter": "biomejs.biome"
 	},
 	"[javascript]": {
 		"editor.defaultFormatter": "biomejs.biome"
 	},
 	"[json]": {
 		"editor.defaultFormatter": "biomejs.biome"
 	}
 }
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -1,5 +1,405 @@
 # task-master-ai
 ## 0.27.0-rc.2
 ### Minor Changes
 - [#1217](https://github.com/eyaltoledano/claude-task-master/pull/1217) [`e6de285`](https://github.com/eyaltoledano/claude-task-master/commit/e6de285ceacb0a397e952a63435cd32a9c731515) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - @tm/cli: add auto-update functionality to every command
 ## 0.27.0-rc.1
 ### Minor Changes
 - [`255b9f0`](https://github.com/eyaltoledano/claude-task-master/commit/255b9f0334555b0063280abde701445cd62fa11b) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Testing one more pre-release iteration
 ## 0.27.0-rc.0
 ### Minor Changes
 - [#1213](https://github.com/eyaltoledano/claude-task-master/pull/1213) [`137ef36`](https://github.com/eyaltoledano/claude-task-master/commit/137ef362789a9cdfdb1925e35e0438c1fa6c69ee) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Test out the RC
 ### Patch Changes
 - Updated dependencies [[`137ef36`](https://github.com/eyaltoledano/claude-task-master/commit/137ef362789a9cdfdb1925e35e0438c1fa6c69ee)]:
  - @tm/cli@0.27.0-rc.0
 ## 0.26.0
 ### Minor Changes
 - [#1133](https://github.com/eyaltoledano/claude-task-master/pull/1133) [`df26c65`](https://github.com/eyaltoledano/claude-task-master/commit/df26c65632000874a73504963b08f18c46283144) Thanks [@neonwatty](https://github.com/neonwatty)! - Restore Taskmaster claude-code commands and move clear commands under /remove to avoid collision with the claude-code /clear command.
 - [#1163](https://github.com/eyaltoledano/claude-task-master/pull/1163) [`37af0f1`](https://github.com/eyaltoledano/claude-task-master/commit/37af0f191227a68d119b7f89a377bf932ee3ac66) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhanced Gemini CLI provider with codebase-aware task generation
  Added automatic codebase analysis for Gemini CLI provider in parse-prd, and analyze-complexity, add-task, udpate-task, update, update-subtask commands
  When using Gemini CLI as the AI provider, Task Master now instructs the AI to analyze the project structure, existing implementations, and patterns before generating tasks or subtasks
  Tasks and subtasks generated by Claude Code are now informed by actual codebase analysis, resulting in more accurate and contextual outputs
 - [#1165](https://github.com/eyaltoledano/claude-task-master/pull/1165) [`c4f92f6`](https://github.com/eyaltoledano/claude-task-master/commit/c4f92f6a0aee3435c56eb8d27d9aa9204284833e) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add configurable codebase analysis feature flag with multiple configuration sources
  Users can now control whether codebase analysis features (Claude Code and Gemini CLI integration) are enabled through environment variables, MCP configuration, or project config files.
  Priority order: .env > MCP session env > .taskmaster/config.json.
  Set `TASKMASTER_ENABLE_CODEBASE_ANALYSIS=false` in `.env` to disable codebase analysis prompts and tool integration.
 - [#1135](https://github.com/eyaltoledano/claude-task-master/pull/1135) [`8783708`](https://github.com/eyaltoledano/claude-task-master/commit/8783708e5e3389890a78fcf685d3da0580e73b3f) Thanks [@mm-parthy](https://github.com/mm-parthy)! - feat(move): improve cross-tag move UX and safety
  - CLI: print "Next Steps" tips after cross-tag moves that used --ignore-dependencies (validate/fix guidance)
  - CLI: show dedicated help block on ID collisions (destination tag already has the ID)
  - Core: add structured suggestions to TASK_ALREADY_EXISTS errors
  - MCP: map ID collision errors to TASK_ALREADY_EXISTS and include suggestions
  - Tests: cover MCP options, error suggestions, CLI tips printing, and integration error payload suggestions
  ***
 - [#1162](https://github.com/eyaltoledano/claude-task-master/pull/1162) [`4dad2fd`](https://github.com/eyaltoledano/claude-task-master/commit/4dad2fd613ceac56a65ae9d3c1c03092b8860ac9) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhanced Claude Code and Google CLI integration with automatic codebase analysis for task operations
  When using Claude Code as the AI provider, task management commands now automatically analyze your codebase before generating or updating tasks. This provides more accurate, context-aware implementation details that align with your project's existing architecture and patterns.
  Commands contextualised:
  - add-task
  - update-subtask
  - update-task
  - update
 ### Patch Changes
 - [#1135](https://github.com/eyaltoledano/claude-task-master/pull/1135) [`8783708`](https://github.com/eyaltoledano/claude-task-master/commit/8783708e5e3389890a78fcf685d3da0580e73b3f) Thanks [@mm-parthy](https://github.com/mm-parthy)! - docs(move): clarify cross-tag move docs; deprecate "force"; add explicit --with-dependencies/--ignore-dependencies examples
 ## 0.26.0-rc.1
 ### Minor Changes
 - [#1165](https://github.com/eyaltoledano/claude-task-master/pull/1165) [`c4f92f6`](https://github.com/eyaltoledano/claude-task-master/commit/c4f92f6a0aee3435c56eb8d27d9aa9204284833e) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add configurable codebase analysis feature flag with multiple configuration sources
  Users can now control whether codebase analysis features (Claude Code and Gemini CLI integration) are enabled through environment variables, MCP configuration, or project config files.
  Priority order: .env > MCP session env > .taskmaster/config.json.
  Set `TASKMASTER_ENABLE_CODEBASE_ANALYSIS=false` in `.env` to disable codebase analysis prompts and tool integration.
 ## 0.26.0-rc.0
 ### Minor Changes
 - [#1163](https://github.com/eyaltoledano/claude-task-master/pull/1163) [`37af0f1`](https://github.com/eyaltoledano/claude-task-master/commit/37af0f191227a68d119b7f89a377bf932ee3ac66) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhanced Gemini CLI provider with codebase-aware task generation
  Added automatic codebase analysis for Gemini CLI provider in parse-prd, and analyze-complexity, add-task, udpate-task, update, update-subtask commands
  When using Gemini CLI as the AI provider, Task Master now instructs the AI to analyze the project structure, existing implementations, and patterns before generating tasks or subtasks
  Tasks and subtasks generated by Claude Code are now informed by actual codebase analysis, resulting in more accurate and contextual outputs
 - [#1135](https://github.com/eyaltoledano/claude-task-master/pull/1135) [`8783708`](https://github.com/eyaltoledano/claude-task-master/commit/8783708e5e3389890a78fcf685d3da0580e73b3f) Thanks [@mm-parthy](https://github.com/mm-parthy)! - feat(move): improve cross-tag move UX and safety
  - CLI: print "Next Steps" tips after cross-tag moves that used --ignore-dependencies (validate/fix guidance)
  - CLI: show dedicated help block on ID collisions (destination tag already has the ID)
  - Core: add structured suggestions to TASK_ALREADY_EXISTS errors
  - MCP: map ID collision errors to TASK_ALREADY_EXISTS and include suggestions
  - Tests: cover MCP options, error suggestions, CLI tips printing, and integration error payload suggestions
  ***
 - [#1162](https://github.com/eyaltoledano/claude-task-master/pull/1162) [`4dad2fd`](https://github.com/eyaltoledano/claude-task-master/commit/4dad2fd613ceac56a65ae9d3c1c03092b8860ac9) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhanced Claude Code and Google CLI integration with automatic codebase analysis for task operations
  When using Claude Code as the AI provider, task management commands now automatically analyze your codebase before generating or updating tasks. This provides more accurate, context-aware implementation details that align with your project's existing architecture and patterns.
  Commands contextualised:
  - add-task
  - update-subtask
  - update-task
  - update
 ### Patch Changes
 - [#1135](https://github.com/eyaltoledano/claude-task-master/pull/1135) [`8783708`](https://github.com/eyaltoledano/claude-task-master/commit/8783708e5e3389890a78fcf685d3da0580e73b3f) Thanks [@mm-parthy](https://github.com/mm-parthy)! - docs(move): clarify cross-tag move docs; deprecate "force"; add explicit --with-dependencies/--ignore-dependencies examples
 ## 0.25.1
 ### Patch Changes
 - [#1152](https://github.com/eyaltoledano/claude-task-master/pull/1152) [`8933557`](https://github.com/eyaltoledano/claude-task-master/commit/89335578ffffc65504b2055c0c85aa7521e5e79b) Thanks [@ben-vargas](https://github.com/ben-vargas)! - fix(claude-code): prevent crash/hang when the optional `@anthropic-ai/claude-code` SDK is missing by guarding `AbortError instanceof` checks and adding explicit SDK presence checks in `doGenerate`/`doStream`. Also bump the optional dependency to `^1.0.88` for improved export consistency.
  Related to JSON truncation handling in #920; this change addresses a separate error-path crash reported in #1142.
 - [#1151](https://github.com/eyaltoledano/claude-task-master/pull/1151) [`db720a9`](https://github.com/eyaltoledano/claude-task-master/commit/db720a954d390bb44838cd021b8813dde8f3d8de) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Temporarily disable streaming for improved model compatibility - will be re-enabled in upcoming release
 ## 0.25.0
 ### Minor Changes
 - [#1088](https://github.com/eyaltoledano/claude-task-master/pull/1088) [`04e11b5`](https://github.com/eyaltoledano/claude-task-master/commit/04e11b5e828597c0ba5b82ca7d5fb6f933e4f1e8) Thanks [@mm-parthy](https://github.com/mm-parthy)! - Add cross-tag task movement functionality for organizing tasks across different contexts.
  This feature enables moving tasks between different tags (contexts) in your project, making it easier to organize work across different branches, environments, or project phases.
  ## CLI Usage Examples
  Move a single task from one tag to another:
  ```bash
  # Move task 5 from backlog tag to in-progress tag
  task-master move --from=5 --from-tag=backlog --to-tag=feature-1
  # Move task with its dependencies
  task-master move --from=5 --from-tag=backlog --to-tag=feature-2 --with-dependencies
  # Move task without checking dependencies
  task-master move --from=5 --from-tag=backlog --to-tag=bug-3 --ignore-dependencies
  ```
  Move multiple tasks at once:
  ```bash
  # Move multiple tasks between tags
  task-master move --from=5,6,7 --from-tag=backlog --to-tag=bug-4 --with-dependencies
  ```
 - [#1040](https://github.com/eyaltoledano/claude-task-master/pull/1040) [`fc47714`](https://github.com/eyaltoledano/claude-task-master/commit/fc477143400fd11d953727bf1b4277af5ad308d1) Thanks [@DomVidja](https://github.com/DomVidja)! - "Add Kilo Code profile integration with custom modes and MCP configuration"
 - [#1054](https://github.com/eyaltoledano/claude-task-master/pull/1054) [`782728f`](https://github.com/eyaltoledano/claude-task-master/commit/782728ff95aa2e3b766d48273b57f6c6753e8573) Thanks [@martincik](https://github.com/martincik)! - Add compact mode --compact / -c flag to the `tm list` CLI command
  - outputs tasks in a minimal, git-style one-line format. This reduces verbose output from ~30+ lines of dashboards and tables to just 1 line per task, making it much easier to quickly scan available tasks.
    - Git-style format: ID STATUS TITLE (PRIORITY) → DEPS
    - Color-coded status, priority, and dependencies
    - Smart title truncation and dependency abbreviation
    - Subtask support with indentation
    - Full backward compatibility with existing list options
 - [#1048](https://github.com/eyaltoledano/claude-task-master/pull/1048) [`e3ed4d7`](https://github.com/eyaltoledano/claude-task-master/commit/e3ed4d7c14b56894d7da675eb2b757423bea8f9d) Thanks [@joedanz](https://github.com/joedanz)! - Add CLI & MCP progress tracking for parse-prd command.
 - [#1124](https://github.com/eyaltoledano/claude-task-master/pull/1124) [`95640dc`](https://github.com/eyaltoledano/claude-task-master/commit/95640dcde87ce7879858c0a951399fb49f3b6397) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add support for ollama `gpt-oss:20b` and `gpt-oss:120b`
 - [#1123](https://github.com/eyaltoledano/claude-task-master/pull/1123) [`311b243`](https://github.com/eyaltoledano/claude-task-master/commit/311b2433e23c771c8d3a4d3f5ac577302b8321e5) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Remove `clear` Taskmaster claude code commands since they were too close to the claude-code clear command
 ### Patch Changes
 - [#1131](https://github.com/eyaltoledano/claude-task-master/pull/1131) [`3dee60d`](https://github.com/eyaltoledano/claude-task-master/commit/3dee60dc3d566e3cff650accb30f994b8bb3a15e) Thanks [@joedanz](https://github.com/joedanz)! - Update Cursor one-click install link to new URL format
 - [#1088](https://github.com/eyaltoledano/claude-task-master/pull/1088) [`04e11b5`](https://github.com/eyaltoledano/claude-task-master/commit/04e11b5e828597c0ba5b82ca7d5fb6f933e4f1e8) Thanks [@mm-parthy](https://github.com/mm-parthy)! - Fix `add-tag --from-branch` command error where `projectRoot` was not properly referenced
  The command was failing with "projectRoot is not defined" error because the code was directly referencing `projectRoot` instead of `context.projectRoot` in the git repository checks. This fix corrects the variable references to use the proper context object.
 ## 0.25.0-rc.0
 ### Minor Changes
 - [#1088](https://github.com/eyaltoledano/claude-task-master/pull/1088) [`04e11b5`](https://github.com/eyaltoledano/claude-task-master/commit/04e11b5e828597c0ba5b82ca7d5fb6f933e4f1e8) Thanks [@mm-parthy](https://github.com/mm-parthy)! - Add cross-tag task movement functionality for organizing tasks across different contexts.
  This feature enables moving tasks between different tags (contexts) in your project, making it easier to organize work across different branches, environments, or project phases.
  ## CLI Usage Examples
  Move a single task from one tag to another:
  ```bash
  # Move task 5 from backlog tag to in-progress tag
  task-master move --from=5 --from-tag=backlog --to-tag=feature-1
  # Move task with its dependencies
  task-master move --from=5 --from-tag=backlog --to-tag=feature-2 --with-dependencies
  # Move task without checking dependencies
  task-master move --from=5 --from-tag=backlog --to-tag=bug-3 --ignore-dependencies
  ```
  Move multiple tasks at once:
  ```bash
  # Move multiple tasks between tags
  task-master move --from=5,6,7 --from-tag=backlog --to-tag=bug-4 --with-dependencies
  ```
 - [#1040](https://github.com/eyaltoledano/claude-task-master/pull/1040) [`fc47714`](https://github.com/eyaltoledano/claude-task-master/commit/fc477143400fd11d953727bf1b4277af5ad308d1) Thanks [@DomVidja](https://github.com/DomVidja)! - "Add Kilo Code profile integration with custom modes and MCP configuration"
 - [#1054](https://github.com/eyaltoledano/claude-task-master/pull/1054) [`782728f`](https://github.com/eyaltoledano/claude-task-master/commit/782728ff95aa2e3b766d48273b57f6c6753e8573) Thanks [@martincik](https://github.com/martincik)! - Add compact mode --compact / -c flag to the `tm list` CLI command
  - outputs tasks in a minimal, git-style one-line format. This reduces verbose output from ~30+ lines of dashboards and tables to just 1 line per task, making it much easier to quickly scan available tasks.
    - Git-style format: ID STATUS TITLE (PRIORITY) → DEPS
    - Color-coded status, priority, and dependencies
    - Smart title truncation and dependency abbreviation
    - Subtask support with indentation
    - Full backward compatibility with existing list options
 - [#1048](https://github.com/eyaltoledano/claude-task-master/pull/1048) [`e3ed4d7`](https://github.com/eyaltoledano/claude-task-master/commit/e3ed4d7c14b56894d7da675eb2b757423bea8f9d) Thanks [@joedanz](https://github.com/joedanz)! - Add CLI & MCP progress tracking for parse-prd command.
 - [#1124](https://github.com/eyaltoledano/claude-task-master/pull/1124) [`95640dc`](https://github.com/eyaltoledano/claude-task-master/commit/95640dcde87ce7879858c0a951399fb49f3b6397) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add support for ollama `gpt-oss:20b` and `gpt-oss:120b`
 - [#1123](https://github.com/eyaltoledano/claude-task-master/pull/1123) [`311b243`](https://github.com/eyaltoledano/claude-task-master/commit/311b2433e23c771c8d3a4d3f5ac577302b8321e5) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Remove `clear` Taskmaster claude code commands since they were too close to the claude-code clear command
 ### Patch Changes
 - [#1131](https://github.com/eyaltoledano/claude-task-master/pull/1131) [`3dee60d`](https://github.com/eyaltoledano/claude-task-master/commit/3dee60dc3d566e3cff650accb30f994b8bb3a15e) Thanks [@joedanz](https://github.com/joedanz)! - Update Cursor one-click install link to new URL format
 - [#1088](https://github.com/eyaltoledano/claude-task-master/pull/1088) [`04e11b5`](https://github.com/eyaltoledano/claude-task-master/commit/04e11b5e828597c0ba5b82ca7d5fb6f933e4f1e8) Thanks [@mm-parthy](https://github.com/mm-parthy)! - Fix `add-tag --from-branch` command error where `projectRoot` was not properly referenced
  The command was failing with "projectRoot is not defined" error because the code was directly referencing `projectRoot` instead of `context.projectRoot` in the git repository checks. This fix corrects the variable references to use the proper context object.
 ## 0.24.0
 ### Minor Changes
 - [#1098](https://github.com/eyaltoledano/claude-task-master/pull/1098) [`36468f3`](https://github.com/eyaltoledano/claude-task-master/commit/36468f3c93faf4035a5c442ccbc501077f3440f1) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhanced Claude Code provider with codebase-aware task generation
  - Added automatic codebase analysis for Claude Code provider in `parse-prd`, `expand-task`, and `analyze-complexity` commands
  - When using Claude Code as the AI provider, Task Master now instructs the AI to analyze the project structure, existing implementations, and patterns before generating tasks or subtasks
  - Tasks and subtasks generated by Claude Code are now informed by actual codebase analysis, resulting in more accurate and contextual outputs
 - [#1105](https://github.com/eyaltoledano/claude-task-master/pull/1105) [`75c514c`](https://github.com/eyaltoledano/claude-task-master/commit/75c514cf5b2ca47f95c0ad7fa92654a4f2a6be4b) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add GPT-5 support with proper parameter handling
  - Added GPT-5 model to supported models configuration with SWE score of 0.749
 - [#1091](https://github.com/eyaltoledano/claude-task-master/pull/1091) [`4bb6370`](https://github.com/eyaltoledano/claude-task-master/commit/4bb63706b80c28d1b2d782ba868a725326f916c7) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add Claude Code subagent support with task-orchestrator, task-executor, and task-checker
  ## New Claude Code Agents
  Added specialized agents for Claude Code users to enable parallel task execution, intelligent task orchestration, and quality assurance:
  ### task-orchestrator
  Coordinates and manages the execution of Task Master tasks with intelligent dependency analysis:
  - Analyzes task dependencies to identify parallelizable work
  - Deploys multiple task-executor agents for concurrent execution
  - Monitors task completion and updates the dependency graph
  - Automatically identifies and starts newly unblocked tasks
  ### task-executor
  Handles the actual implementation of individual tasks:
  - Executes specific tasks identified by the orchestrator
  - Works on concrete implementation rather than planning
  - Updates task status and logs progress
  - Can work in parallel with other executors on independent tasks
  ### task-checker
  Verifies that completed tasks meet their specifications:
  - Reviews tasks marked as 'review' status
  - Validates implementation against requirements
  - Runs tests and checks for best practices
  - Ensures quality before marking tasks as 'done'
  ## Installation
  When using the Claude profile (`task-master rules add claude`), the agents are automatically installed to `.claude/agents/` directory.
  ## Usage Example
  ```bash
  # In Claude Code, after initializing a project with tasks:
  # Use task-orchestrator to analyze and coordinate work
  # The orchestrator will:
  # 1. Check task dependencies
  # 2. Identify tasks that can run in parallel
  # 3. Deploy executors for available work
  # 4. Monitor progress and deploy new executors as tasks complete
  # Use task-executor for specific task implementation
  # When the orchestrator identifies task 2.3 needs work:
  # The executor will implement that specific task
  ```
  ## Benefits
  - **Parallel Execution**: Multiple independent tasks can be worked on simultaneously
  - **Intelligent Scheduling**: Orchestrator understands dependencies and optimizes execution order
  - **Separation of Concerns**: Planning (orchestrator) is separated from execution (executor)
  - **Progress Tracking**: Real-time updates as tasks are completed
  - **Automatic Progression**: As tasks complete, newly unblocked tasks are automatically started
 ### Patch Changes
 - [#1094](https://github.com/eyaltoledano/claude-task-master/pull/1094) [`4357af3`](https://github.com/eyaltoledano/claude-task-master/commit/4357af3f13859d90bca8795215e5d5f1d94abde5) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Fix expand task generating unrelated generic subtasks
  Fixed an issue where `task-master expand` would generate generic authentication-related subtasks regardless of the parent task context when using complexity reports. The expansion now properly includes the parent task details alongside any expansion guidance.
 - [#1079](https://github.com/eyaltoledano/claude-task-master/pull/1079) [`e495b2b`](https://github.com/eyaltoledano/claude-task-master/commit/e495b2b55950ee54c7d0f1817d8530e28bd79c05) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Fix scope-up/down prompts to include all required fields for better AI model compatibility
  - Added missing `priority` field to scope adjustment prompts to prevent validation errors with Claude-code and other models
  - Ensures generated JSON includes all fields required by the schema
 - [#1079](https://github.com/eyaltoledano/claude-task-master/pull/1079) [`e495b2b`](https://github.com/eyaltoledano/claude-task-master/commit/e495b2b55950ee54c7d0f1817d8530e28bd79c05) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Fix MCP scope-up/down tools not finding tasks
  - Fixed task ID parsing in MCP layer - now correctly converts string IDs to numbers
  - scope_up_task and scope_down_task MCP tools now work properly
 - [#1079](https://github.com/eyaltoledano/claude-task-master/pull/1079) [`e495b2b`](https://github.com/eyaltoledano/claude-task-master/commit/e495b2b55950ee54c7d0f1817d8530e28bd79c05) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Improve AI provider compatibility for JSON generation
  - Fixed schema compatibility issues between Perplexity and OpenAI o3 models
  - Removed nullable/default modifiers from Zod schemas for broader compatibility
  - Added automatic JSON repair for malformed AI responses (handles cases like missing array values)
  - Perplexity now uses JSON mode for more reliable structured output
  - Post-processing handles default values separately from schema validation
 ## 0.24.0-rc.2
 ### Minor Changes
 - [#1105](https://github.com/eyaltoledano/claude-task-master/pull/1105) [`75c514c`](https://github.com/eyaltoledano/claude-task-master/commit/75c514cf5b2ca47f95c0ad7fa92654a4f2a6be4b) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add GPT-5 support with proper parameter handling
  - Added GPT-5 model to supported models configuration with SWE score of 0.749
 ## 0.24.0-rc.1
 ### Minor Changes
 - [#1093](https://github.com/eyaltoledano/claude-task-master/pull/1093) [`36468f3`](https://github.com/eyaltoledano/claude-task-master/commit/36468f3c93faf4035a5c442ccbc501077f3440f1) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhanced Claude Code provider with codebase-aware task generation
  - Added automatic codebase analysis for Claude Code provider in `parse-prd`, `expand-task`, and `analyze-complexity` commands
  - When using Claude Code as the AI provider, Task Master now instructs the AI to analyze the project structure, existing implementations, and patterns before generating tasks or subtasks
  - Tasks and subtasks generated by Claude Code are now informed by actual codebase analysis, resulting in more accurate and contextual outputs
 - [#1091](https://github.com/eyaltoledano/claude-task-master/pull/1091) [`4bb6370`](https://github.com/eyaltoledano/claude-task-master/commit/4bb63706b80c28d1b2d782ba868a725326f916c7) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add Claude Code subagent support with task-orchestrator, task-executor, and task-checker
  ## New Claude Code Agents
  Added specialized agents for Claude Code users to enable parallel task execution, intelligent task orchestration, and quality assurance:
  ### task-orchestrator
  Coordinates and manages the execution of Task Master tasks with intelligent dependency analysis:
  - Analyzes task dependencies to identify parallelizable work
  - Deploys multiple task-executor agents for concurrent execution
  - Monitors task completion and updates the dependency graph
  - Automatically identifies and starts newly unblocked tasks
  ### task-executor
  Handles the actual implementation of individual tasks:
  - Executes specific tasks identified by the orchestrator
  - Works on concrete implementation rather than planning
  - Updates task status and logs progress
  - Can work in parallel with other executors on independent tasks
  ### task-checker
  Verifies that completed tasks meet their specifications:
  - Reviews tasks marked as 'review' status
  - Validates implementation against requirements
  - Runs tests and checks for best practices
  - Ensures quality before marking tasks as 'done'
  ## Installation
  When using the Claude profile (`task-master rules add claude`), the agents are automatically installed to `.claude/agents/` directory.
  ## Usage Example
  ```bash
  # In Claude Code, after initializing a project with tasks:
  # Use task-orchestrator to analyze and coordinate work
  # The orchestrator will:
  # 1. Check task dependencies
  # 2. Identify tasks that can run in parallel
  # 3. Deploy executors for available work
  # 4. Monitor progress and deploy new executors as tasks complete
  # Use task-executor for specific task implementation
  # When the orchestrator identifies task 2.3 needs work:
  # The executor will implement that specific task
  ```
  ## Benefits
  - **Parallel Execution**: Multiple independent tasks can be worked on simultaneously
  - **Intelligent Scheduling**: Orchestrator understands dependencies and optimizes execution order
  - **Separation of Concerns**: Planning (orchestrator) is separated from execution (executor)
  - **Progress Tracking**: Real-time updates as tasks are completed
  - **Automatic Progression**: As tasks complete, newly unblocked tasks are automatically started
 ### Patch Changes
 - [#1094](https://github.com/eyaltoledano/claude-task-master/pull/1094) [`4357af3`](https://github.com/eyaltoledano/claude-task-master/commit/4357af3f13859d90bca8795215e5d5f1d94abde5) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Fix expand task generating unrelated generic subtasks
  Fixed an issue where `task-master expand` would generate generic authentication-related subtasks regardless of the parent task context when using complexity reports. The expansion now properly includes the parent task details alongside any expansion guidance.
 ## 0.23.1-rc.0
 ### Patch Changes
--- a/CLAUDE.md
+++ b/CLAUDE.md
@@ -3,3 +3,7 @@
 ## Task Master AI Instructions
 **Import Task Master's development workflow commands and guidelines, treat as if import is in the main CLAUDE.md file.**
@./.taskmaster/CLAUDE.md
 ## Changeset Guidelines
 - When creating changesets, remember that it's user-facing, meaning we don't have to get into the specifics of the code, but rather mention what the end-user is getting or fixing from this changeset.
--- a/README.md
+++ b/README.md
@@ -1,14 +1,39 @@
-# Task Master [![GitHub stars](https://img.shields.io/github/stars/eyaltoledano/claude-task-master?style=social)](https://github.com/eyaltoledano/claude-task-master/stargazers)
+<a name="readme-top"></a>
-[![CI](https://github.com/eyaltoledano/claude-task-master/actions/workflows/ci.yml/badge.svg)](https://github.com/eyaltoledano/claude-task-master/actions/workflows/ci.yml) [![npm version](https://badge.fury.io/js/task-master-ai.svg)](https://badge.fury.io/js/task-master-ai) [![Discord](https://dcbadge.limes.pink/api/server/https://discord.gg/taskmasterai?style=flat)](https://discord.gg/taskmasterai) [![License: MIT with Commons Clause](https://img.shields.io/badge/license-MIT%20with%20Commons%20Clause-blue.svg)](LICENSE)
+<div align='center'>
 <a href="https://trendshift.io/repositories/13971" target="_blank"><img src="https://trendshift.io/api/badge/repositories/13971" alt="eyaltoledano%2Fclaude-task-master | Trendshift" style="width: 250px; height: 55px;" width="250" height="55"/></a>
 </div>
-[![NPM Downloads](https://img.shields.io/npm/d18m/task-master-ai?style=flat)](https://www.npmjs.com/package/task-master-ai) [![NPM Downloads](https://img.shields.io/npm/dm/task-master-ai?style=flat)](https://www.npmjs.com/package/task-master-ai) [![NPM Downloads](https://img.shields.io/npm/dw/task-master-ai?style=flat)](https://www.npmjs.com/package/task-master-ai)
+<p align="center">
  <a href="https://task-master.dev"><img src="./images/logo.png?raw=true" alt="Taskmaster logo"></a>
 </p>
-## By [@eyaltoledano](https://x.com/eyaltoledano), [@RalphEcom](https://x.com/RalphEcom) & [@jasonzhou1993](https://x.com/jasonzhou1993)
+<p align="center">
 <b>Taskmaster</b>: A task management system for AI-driven development, designed to work seamlessly with any AI chat.
 </p>
 <p align="center">
  <a href="https://discord.gg/taskmasterai" target="_blank"><img src="https://dcbadge.limes.pink/api/server/https://discord.gg/taskmasterai?style=flat" alt="Discord"></a> |
  <a href="https://docs.task-master.dev" target="_blank">Docs</a>
 </p>
 <p align="center">
  <a href="https://github.com/eyaltoledano/claude-task-master/actions/workflows/ci.yml"><img src="https://github.com/eyaltoledano/claude-task-master/actions/workflows/ci.yml/badge.svg" alt="CI"></a>
  <a href="https://github.com/eyaltoledano/claude-task-master/stargazers"><img src="https://img.shields.io/github/stars/eyaltoledano/claude-task-master?style=social" alt="GitHub stars"></a>
  <a href="https://badge.fury.io/js/task-master-ai"><img src="https://badge.fury.io/js/task-master-ai.svg" alt="npm version"></a>
  <a href="LICENSE"><img src="https://img.shields.io/badge/license-MIT%20with%20Commons%20Clause-blue.svg" alt="License"></a>
 </p>
 <p align="center">
  <a href="https://www.npmjs.com/package/task-master-ai"><img src="https://img.shields.io/npm/d18m/task-master-ai?style=flat" alt="NPM Downloads"></a>
  <a href="https://www.npmjs.com/package/task-master-ai"><img src="https://img.shields.io/npm/dm/task-master-ai?style=flat" alt="NPM Downloads"></a>
  <a href="https://www.npmjs.com/package/task-master-ai"><img src="https://img.shields.io/npm/dw/task-master-ai?style=flat" alt="NPM Downloads"></a>
 </p>
 ## By [@eyaltoledano](https://x.com/eyaltoledano) & [@RalphEcom](https://x.com/RalphEcom)
 [![Twitter Follow](https://img.shields.io/twitter/follow/eyaltoledano)](https://x.com/eyaltoledano)
 [![Twitter Follow](https://img.shields.io/twitter/follow/RalphEcom)](https://x.com/RalphEcom)
 [![Twitter Follow](https://img.shields.io/twitter/follow/jasonzhou1993)](https://x.com/jasonzhou1993)
 A task management system for AI-driven development with Claude, designed to work seamlessly with Cursor AI.
@@ -31,7 +56,7 @@ The following documentation is also available in the `docs` directory:
 #### Quick Install for Cursor 1.0+ (One-Click)
-[![Add task-master-ai MCP server to Cursor](https://cursor.com/deeplink/mcp-install-dark.svg)](https://cursor.com/install-mcp?name=task-master-ai&config=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%3D%3D)
+[![Add task-master-ai MCP server to Cursor](https://cursor.com/deeplink/mcp-install-dark.svg)](https://cursor.com/en/install-mcp?name=task-master-ai&config=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%3D%3D)
 > **Note:** After clicking the link, you'll still need to add your API keys to the configuration. The link installs the MCP server with placeholder keys that you'll need to replace with your actual API keys.
@@ -77,7 +102,7 @@ MCP (Model Control Protocol) lets you run Task Master directly from your editor.
  "mcpServers": {
    "task-master-ai": {
      "command": "npx",
-      "args": ["-y", "--package=task-master-ai", "task-master-ai"],
+      "args": ["-y", "task-master-ai"],
      "env": {
        "ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
        "PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",
@@ -97,7 +122,7 @@ MCP (Model Control Protocol) lets you run Task Master directly from your editor.
 > 🔑 Replace `YOUR_…_KEY_HERE` with your real API keys. You can remove keys you don't use.
-> **Note**: If you see `0 tools enabled` in the MCP settings, try removing the `--package=task-master-ai` flag from `args`.
+> **Note**: If you see `0 tools enabled` in the MCP settings, restart your editor and check that your API keys are correctly configured.
 ###### VS Code (`servers` + `type`)
@@ -106,7 +131,7 @@ MCP (Model Control Protocol) lets you run Task Master directly from your editor.
  "servers": {
    "task-master-ai": {
      "command": "npx",
-      "args": ["-y", "--package=task-master-ai", "task-master-ai"],
+      "args": ["-y", "task-master-ai"],
      "env": {
        "ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
        "PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",
@@ -230,6 +255,11 @@ task-master show 1,3,5
 # Research fresh information with project context
 task-master research "What are the latest best practices for JWT authentication?"
 # Move tasks between tags (cross-tag movement)
 task-master move --from=5 --from-tag=backlog --to-tag=in-progress
 task-master move --from=5,6,7 --from-tag=backlog --to-tag=done --with-dependencies
 task-master move --from=5 --from-tag=backlog --to-tag=in-progress --ignore-dependencies
 # Generate task files
 task-master generate
--- a/apps/cli/CHANGELOG.md
+++ b/apps/cli/CHANGELOG.md
@@ -0,0 +1,13 @@
 # @tm/cli
 ## 0.27.0-rc.0
 ### Minor Changes
 - [#1213](https://github.com/eyaltoledano/claude-task-master/pull/1213) [`137ef36`](https://github.com/eyaltoledano/claude-task-master/commit/137ef362789a9cdfdb1925e35e0438c1fa6c69ee) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - testing this stuff out to see how the release candidate works with monorepo
 ## 1.1.0-rc.0
 ### Minor Changes
 - [#1213](https://github.com/eyaltoledano/claude-task-master/pull/1213) [`cd90b4d`](https://github.com/eyaltoledano/claude-task-master/commit/cd90b4d65fc2f04bdad9fb73aba320b58a124240) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - testing this stuff out to see how the release candidate works with monorepo
--- a/apps/cli/package.json
+++ b/apps/cli/package.json
@@ -0,0 +1,53 @@
 {
 	"name": "@tm/cli",
 	"version": "0.27.0-rc.0",
 	"description": "Task Master CLI - Command line interface for task management",
 	"type": "module",
 	"private": true,
 	"main": "./dist/index.js",
 	"types": "./src/index.ts",
 	"exports": {
 		".": "./src/index.ts"
 	},
 	"files": ["dist", "README.md"],
 	"scripts": {
 		"typecheck": "tsc --noEmit",
 		"lint": "biome check src",
 		"format": "biome format --write src",
 		"test": "vitest run",
 		"test:watch": "vitest",
 		"test:coverage": "vitest run --coverage",
 		"test:unit": "vitest run -t unit",
 		"test:integration": "vitest run -t integration",
 		"test:e2e": "vitest run --dir tests/e2e",
 		"test:ci": "vitest run --coverage --reporter=dot"
 	},
 	"dependencies": {
 		"@tm/core": "*",
 		"boxen": "^7.1.1",
 		"chalk": "5.6.2",
 		"cli-table3": "^0.6.5",
 		"commander": "^12.1.0",
 		"inquirer": "^9.2.10",
 		"ora": "^8.1.0"
 	},
 	"devDependencies": {
 		"@biomejs/biome": "^1.9.4",
 		"@types/inquirer": "^9.0.3",
 		"@types/node": "^22.10.5",
 		"tsx": "^4.20.4",
 		"typescript": "^5.7.3",
 		"vitest": "^2.1.8"
 	},
 	"engines": {
 		"node": ">=18.0.0"
 	},
 	"keywords": ["task-master", "cli", "task-management", "productivity"],
 	"author": "",
 	"license": "MIT",
 	"typesVersions": {
 		"*": {
 			"*": ["src/*"]
 		}
 	}
 }
--- a/apps/cli/src/commands/auth.command.ts
+++ b/apps/cli/src/commands/auth.command.ts
@@ -0,0 +1,514 @@
 /**
 * @fileoverview Auth command using Commander's native class pattern
 * Extends Commander.Command for better integration with the framework
 */
 import { Command } from 'commander';
 import chalk from 'chalk';
 import inquirer from 'inquirer';
 import ora, { type Ora } from 'ora';
 import open from 'open';
 import {
 	AuthManager,
 	AuthenticationError,
 	type AuthCredentials
 } from '@tm/core/auth';
 import * as ui from '../utils/ui.js';
 /**
 * Result type from auth command
 */
 export interface AuthResult {
 	success: boolean;
 	action: 'login' | 'logout' | 'status' | 'refresh';
 	credentials?: AuthCredentials;
 	message?: string;
 }
 /**
 * AuthCommand extending Commander's Command class
 * This is a thin presentation layer over @tm/core's AuthManager
 */
 export class AuthCommand extends Command {
 	private authManager: AuthManager;
 	private lastResult?: AuthResult;
 	constructor(name?: string) {
 		super(name || 'auth');
 		// Initialize auth manager
 		this.authManager = AuthManager.getInstance();
 		// Configure the command with subcommands
 		this.description('Manage authentication with tryhamster.com');
 		// Add subcommands
 		this.addLoginCommand();
 		this.addLogoutCommand();
 		this.addStatusCommand();
 		this.addRefreshCommand();
 		// Default action shows help
 		this.action(() => {
 			this.help();
 		});
 	}
 	/**
 	 * Add login subcommand
 	 */
 	private addLoginCommand(): void {
 		this.command('login')
 			.description('Authenticate with tryhamster.com')
 			.action(async () => {
 				await this.executeLogin();
 			});
 	}
 	/**
 	 * Add logout subcommand
 	 */
 	private addLogoutCommand(): void {
 		this.command('logout')
 			.description('Logout and clear credentials')
 			.action(async () => {
 				await this.executeLogout();
 			});
 	}
 	/**
 	 * Add status subcommand
 	 */
 	private addStatusCommand(): void {
 		this.command('status')
 			.description('Display authentication status')
 			.action(async () => {
 				await this.executeStatus();
 			});
 	}
 	/**
 	 * Add refresh subcommand
 	 */
 	private addRefreshCommand(): void {
 		this.command('refresh')
 			.description('Refresh authentication token')
 			.action(async () => {
 				await this.executeRefresh();
 			});
 	}
 	/**
 	 * Execute login command
 	 */
 	private async executeLogin(): Promise<void> {
 		try {
 			const result = await this.performInteractiveAuth();
 			this.setLastResult(result);
 			if (!result.success) {
 				process.exit(1);
 			}
 			// Exit cleanly after successful authentication
 			// Small delay to ensure all output is flushed
 			setTimeout(() => {
 				process.exit(0);
 			}, 100);
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Execute logout command
 	 */
 	private async executeLogout(): Promise<void> {
 		try {
 			const result = await this.performLogout();
 			this.setLastResult(result);
 			if (!result.success) {
 				process.exit(1);
 			}
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Execute status command
 	 */
 	private async executeStatus(): Promise<void> {
 		try {
 			const result = this.displayStatus();
 			this.setLastResult(result);
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Execute refresh command
 	 */
 	private async executeRefresh(): Promise<void> {
 		try {
 			const result = await this.refreshToken();
 			this.setLastResult(result);
 			if (!result.success) {
 				process.exit(1);
 			}
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Display authentication status
 	 */
 	private displayStatus(): AuthResult {
 		const credentials = this.authManager.getCredentials();
 		console.log(chalk.cyan('\n🔐 Authentication Status\n'));
 		if (credentials) {
 			console.log(chalk.green('✓ Authenticated'));
 			console.log(chalk.gray(`  Email: ${credentials.email || 'N/A'}`));
 			console.log(chalk.gray(`  User ID: ${credentials.userId}`));
 			console.log(
 				chalk.gray(`  Token Type: ${credentials.tokenType || 'standard'}`)
 			);
 			if (credentials.expiresAt) {
 				const expiresAt = new Date(credentials.expiresAt);
 				const now = new Date();
 				const hoursRemaining = Math.floor(
 					(expiresAt.getTime() - now.getTime()) / (1000 * 60 * 60)
 				);
 				if (hoursRemaining > 0) {
 					console.log(
 						chalk.gray(
 							`  Expires: ${expiresAt.toLocaleString()} (${hoursRemaining} hours remaining)`
 						)
 					);
 				} else {
 					console.log(
 						chalk.yellow(`  Token expired at: ${expiresAt.toLocaleString()}`)
 					);
 				}
 			} else {
 				console.log(chalk.gray('  Expires: Never (API key)'));
 			}
 			console.log(
 				chalk.gray(`  Saved: ${new Date(credentials.savedAt).toLocaleString()}`)
 			);
 			return {
 				success: true,
 				action: 'status',
 				credentials,
 				message: 'Authenticated'
 			};
 		} else {
 			console.log(chalk.yellow('✗ Not authenticated'));
 			console.log(
 				chalk.gray('\n  Run "task-master auth login" to authenticate')
 			);
 			return {
 				success: false,
 				action: 'status',
 				message: 'Not authenticated'
 			};
 		}
 	}
 	/**
 	 * Perform logout
 	 */
 	private async performLogout(): Promise<AuthResult> {
 		try {
 			await this.authManager.logout();
 			ui.displaySuccess('Successfully logged out');
 			return {
 				success: true,
 				action: 'logout',
 				message: 'Successfully logged out'
 			};
 		} catch (error) {
 			const message = `Failed to logout: ${(error as Error).message}`;
 			ui.displayError(message);
 			return {
 				success: false,
 				action: 'logout',
 				message
 			};
 		}
 	}
 	/**
 	 * Refresh authentication token
 	 */
 	private async refreshToken(): Promise<AuthResult> {
 		const spinner = ora('Refreshing authentication token...').start();
 		try {
 			const credentials = await this.authManager.refreshToken();
 			spinner.succeed('Token refreshed successfully');
 			console.log(
 				chalk.gray(
 					`  New expiration: ${credentials.expiresAt ? new Date(credentials.expiresAt).toLocaleString() : 'Never'}`
 				)
 			);
 			return {
 				success: true,
 				action: 'refresh',
 				credentials,
 				message: 'Token refreshed successfully'
 			};
 		} catch (error) {
 			spinner.fail('Failed to refresh token');
 			if ((error as AuthenticationError).code === 'NO_REFRESH_TOKEN') {
 				ui.displayWarning(
 					'No refresh token available. Please re-authenticate.'
 				);
 			} else {
 				ui.displayError(`Refresh failed: ${(error as Error).message}`);
 			}
 			return {
 				success: false,
 				action: 'refresh',
 				message: `Failed to refresh: ${(error as Error).message}`
 			};
 		}
 	}
 	/**
 	 * Perform interactive authentication
 	 */
 	private async performInteractiveAuth(): Promise<AuthResult> {
 		ui.displayBanner('Task Master Authentication');
 		// Check if already authenticated
 		if (this.authManager.isAuthenticated()) {
 			const { continueAuth } = await inquirer.prompt([
 				{
 					type: 'confirm',
 					name: 'continueAuth',
 					message:
 						'You are already authenticated. Do you want to re-authenticate?',
 					default: false
 				}
 			]);
 			if (!continueAuth) {
 				const credentials = this.authManager.getCredentials();
 				ui.displaySuccess('Using existing authentication');
 				if (credentials) {
 					console.log(chalk.gray(`  Email: ${credentials.email || 'N/A'}`));
 					console.log(chalk.gray(`  User ID: ${credentials.userId}`));
 				}
 				return {
 					success: true,
 					action: 'login',
 					credentials: credentials || undefined,
 					message: 'Using existing authentication'
 				};
 			}
 		}
 		try {
 			// Direct browser authentication - no menu needed
 			const credentials = await this.authenticateWithBrowser();
 			ui.displaySuccess('Authentication successful!');
 			console.log(
 				chalk.gray(`  Logged in as: ${credentials.email || credentials.userId}`)
 			);
 			return {
 				success: true,
 				action: 'login',
 				credentials,
 				message: 'Authentication successful'
 			};
 		} catch (error) {
 			this.handleAuthError(error as AuthenticationError);
 			return {
 				success: false,
 				action: 'login',
 				message: `Authentication failed: ${(error as Error).message}`
 			};
 		}
 	}
 	/**
 	 * Authenticate with browser using OAuth 2.0 with PKCE
 	 */
 	private async authenticateWithBrowser(): Promise<AuthCredentials> {
 		let authSpinner: Ora | null = null;
 		try {
 			// Use AuthManager's new unified OAuth flow method with callbacks
 			const credentials = await this.authManager.authenticateWithOAuth({
 				// Callback to handle browser opening
 				openBrowser: async (authUrl) => {
 					await open(authUrl);
 				},
 				timeout: 5 * 60 * 1000, // 5 minutes
 				// Callback when auth URL is ready
 				onAuthUrl: (authUrl) => {
 					// Display authentication instructions
 					console.log(chalk.blue.bold('\n🔐 Browser Authentication\n'));
 					console.log(chalk.white('  Opening your browser to authenticate...'));
 					console.log(chalk.gray("  If the browser doesn't open, visit:"));
 					console.log(chalk.cyan.underline(`  ${authUrl}\n`));
 				},
 				// Callback when waiting for authentication
 				onWaitingForAuth: () => {
 					authSpinner = ora({
 						text: 'Waiting for authentication...',
 						spinner: 'dots'
 					}).start();
 				},
 				// Callback on success
 				onSuccess: () => {
 					if (authSpinner) {
 						authSpinner.succeed('Authentication successful!');
 					}
 				},
 				// Callback on error
 				onError: () => {
 					if (authSpinner) {
 						authSpinner.fail('Authentication failed');
 					}
 				}
 			});
 			return credentials;
 		} catch (error) {
 			throw error;
 		}
 	}
 	/**
 	 * Handle authentication errors
 	 */
 	private handleAuthError(error: AuthenticationError): void {
 		console.error(chalk.red(`\n✗ ${error.message}`));
 		switch (error.code) {
 			case 'NETWORK_ERROR':
 				ui.displayWarning(
 					'Please check your internet connection and try again.'
 				);
 				break;
 			case 'INVALID_CREDENTIALS':
 				ui.displayWarning('Please check your credentials and try again.');
 				break;
 			case 'AUTH_EXPIRED':
 				ui.displayWarning(
 					'Your session has expired. Please authenticate again.'
 				);
 				break;
 			default:
 				if (process.env.DEBUG) {
 					console.error(chalk.gray(error.stack || ''));
 				}
 		}
 	}
 	/**
 	 * Handle general errors
 	 */
 	private handleError(error: any): void {
 		if (error instanceof AuthenticationError) {
 			this.handleAuthError(error);
 		} else {
 			const msg = error?.getSanitizedDetails?.() ?? {
 				message: error?.message ?? String(error)
 			};
 			console.error(chalk.red(`Error: ${msg.message || 'Unexpected error'}`));
 			if (error.stack && process.env.DEBUG) {
 				console.error(chalk.gray(error.stack));
 			}
 		}
 	}
 	/**
 	 * Set the last result for programmatic access
 	 */
 	private setLastResult(result: AuthResult): void {
 		this.lastResult = result;
 	}
 	/**
 	 * Get the last result (for programmatic usage)
 	 */
 	getLastResult(): AuthResult | undefined {
 		return this.lastResult;
 	}
 	/**
 	 * Get current authentication status (for programmatic usage)
 	 */
 	isAuthenticated(): boolean {
 		return this.authManager.isAuthenticated();
 	}
 	/**
 	 * Get current credentials (for programmatic usage)
 	 */
 	getCredentials(): AuthCredentials | null {
 		return this.authManager.getCredentials();
 	}
 	/**
 	 * Clean up resources
 	 */
 	async cleanup(): Promise<void> {
 		// No resources to clean up for auth command
 		// But keeping method for consistency with other commands
 	}
 	/**
 	 * Static method to register this command on an existing program
 	 * This is for gradual migration - allows commands.js to use this
 	 */
 	static registerOn(program: Command): Command {
 		const authCommand = new AuthCommand();
 		program.addCommand(authCommand);
 		return authCommand;
 	}
 	/**
 	 * Alternative registration that returns the command for chaining
 	 * Can also configure the command name if needed
 	 */
 	static register(program: Command, name?: string): AuthCommand {
 		const authCommand = new AuthCommand(name);
 		program.addCommand(authCommand);
 		return authCommand;
 	}
 }
--- a/apps/cli/src/commands/context.command.ts
+++ b/apps/cli/src/commands/context.command.ts
@@ -0,0 +1,713 @@
 /**
 * @fileoverview Context command for managing org/brief selection
 * Provides a clean interface for workspace context management
 */
 import { Command } from 'commander';
 import chalk from 'chalk';
 import inquirer from 'inquirer';
 import ora, { Ora } from 'ora';
 import {
 	AuthManager,
 	AuthenticationError,
 	type UserContext
 } from '@tm/core/auth';
 import * as ui from '../utils/ui.js';
 /**
 * Result type from context command
 */
 export interface ContextResult {
 	success: boolean;
 	action: 'show' | 'select-org' | 'select-brief' | 'clear' | 'set';
 	context?: UserContext;
 	message?: string;
 }
 /**
 * ContextCommand extending Commander's Command class
 * Manages user's workspace context (org/brief selection)
 */
 export class ContextCommand extends Command {
 	private authManager: AuthManager;
 	private lastResult?: ContextResult;
 	constructor(name?: string) {
 		super(name || 'context');
 		// Initialize auth manager
 		this.authManager = AuthManager.getInstance();
 		// Configure the command
 		this.description(
 			'Manage workspace context (organization and brief selection)'
 		);
 		// Add subcommands
 		this.addOrgCommand();
 		this.addBriefCommand();
 		this.addClearCommand();
 		this.addSetCommand();
 		// Accept optional positional argument for brief ID or Hamster URL
 		this.argument('[briefOrUrl]', 'Brief ID or Hamster brief URL');
 		// Default action: if an argument is provided, resolve and set context; else show
 		this.action(async (briefOrUrl?: string) => {
 			if (briefOrUrl && briefOrUrl.trim().length > 0) {
 				await this.executeSetFromBriefInput(briefOrUrl.trim());
 				return;
 			}
 			await this.executeShow();
 		});
 	}
 	/**
 	 * Add org selection subcommand
 	 */
 	private addOrgCommand(): void {
 		this.command('org')
 			.description('Select an organization')
 			.action(async () => {
 				await this.executeSelectOrg();
 			});
 	}
 	/**
 	 * Add brief selection subcommand
 	 */
 	private addBriefCommand(): void {
 		this.command('brief')
 			.description('Select a brief within the current organization')
 			.action(async () => {
 				await this.executeSelectBrief();
 			});
 	}
 	/**
 	 * Add clear subcommand
 	 */
 	private addClearCommand(): void {
 		this.command('clear')
 			.description('Clear all context selections')
 			.action(async () => {
 				await this.executeClear();
 			});
 	}
 	/**
 	 * Add set subcommand for direct context setting
 	 */
 	private addSetCommand(): void {
 		this.command('set')
 			.description('Set context directly')
 			.option('--org <id>', 'Organization ID')
 			.option('--org-name <name>', 'Organization name')
 			.option('--brief <id>', 'Brief ID')
 			.option('--brief-name <name>', 'Brief name')
 			.action(async (options) => {
 				await this.executeSet(options);
 			});
 	}
 	/**
 	 * Execute show current context
 	 */
 	private async executeShow(): Promise<void> {
 		try {
 			const result = this.displayContext();
 			this.setLastResult(result);
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Display current context
 	 */
 	private displayContext(): ContextResult {
 		// Check authentication first
 		if (!this.authManager.isAuthenticated()) {
 			console.log(chalk.yellow('✗ Not authenticated'));
 			console.log(chalk.gray('\n  Run "tm auth login" to authenticate first'));
 			return {
 				success: false,
 				action: 'show',
 				message: 'Not authenticated'
 			};
 		}
 		const context = this.authManager.getContext();
 		console.log(chalk.cyan('\n🌍 Workspace Context\n'));
 		if (context && (context.orgId || context.briefId)) {
 			if (context.orgName || context.orgId) {
 				console.log(chalk.green('✓ Organization'));
 				if (context.orgName) {
 					console.log(chalk.white(`  ${context.orgName}`));
 				}
 				if (context.orgId) {
 					console.log(chalk.gray(`  ID: ${context.orgId}`));
 				}
 			}
 			if (context.briefName || context.briefId) {
 				console.log(chalk.green('\n✓ Brief'));
 				if (context.briefName) {
 					console.log(chalk.white(`  ${context.briefName}`));
 				}
 				if (context.briefId) {
 					console.log(chalk.gray(`  ID: ${context.briefId}`));
 				}
 			}
 			if (context.updatedAt) {
 				console.log(
 					chalk.gray(
 						`\n  Last updated: ${new Date(context.updatedAt).toLocaleString()}`
 					)
 				);
 			}
 			return {
 				success: true,
 				action: 'show',
 				context,
 				message: 'Context loaded'
 			};
 		} else {
 			console.log(chalk.yellow('✗ No context selected'));
 			console.log(
 				chalk.gray('\n  Run "tm context org" to select an organization')
 			);
 			console.log(chalk.gray('  Run "tm context brief" to select a brief'));
 			return {
 				success: true,
 				action: 'show',
 				message: 'No context selected'
 			};
 		}
 	}
 	/**
 	 * Execute org selection
 	 */
 	private async executeSelectOrg(): Promise<void> {
 		try {
 			// Check authentication
 			if (!this.authManager.isAuthenticated()) {
 				ui.displayError('Not authenticated. Run "tm auth login" first.');
 				process.exit(1);
 			}
 			const result = await this.selectOrganization();
 			this.setLastResult(result);
 			if (!result.success) {
 				process.exit(1);
 			}
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Select an organization interactively
 	 */
 	private async selectOrganization(): Promise<ContextResult> {
 		const spinner = ora('Fetching organizations...').start();
 		try {
 			// Fetch organizations from API
 			const organizations = await this.authManager.getOrganizations();
 			spinner.stop();
 			if (organizations.length === 0) {
 				ui.displayWarning('No organizations available');
 				return {
 					success: false,
 					action: 'select-org',
 					message: 'No organizations available'
 				};
 			}
 			// Prompt for selection
 			const { selectedOrg } = await inquirer.prompt([
 				{
 					type: 'list',
 					name: 'selectedOrg',
 					message: 'Select an organization:',
 					choices: organizations.map((org) => ({
 						name: org.name,
 						value: org
 					}))
 				}
 			]);
 			// Update context
 			await this.authManager.updateContext({
 				orgId: selectedOrg.id,
 				orgName: selectedOrg.name,
 				// Clear brief when changing org
 				briefId: undefined,
 				briefName: undefined
 			});
 			ui.displaySuccess(`Selected organization: ${selectedOrg.name}`);
 			return {
 				success: true,
 				action: 'select-org',
 				context: this.authManager.getContext() || undefined,
 				message: `Selected organization: ${selectedOrg.name}`
 			};
 		} catch (error) {
 			spinner.fail('Failed to fetch organizations');
 			throw error;
 		}
 	}
 	/**
 	 * Execute brief selection
 	 */
 	private async executeSelectBrief(): Promise<void> {
 		try {
 			// Check authentication
 			if (!this.authManager.isAuthenticated()) {
 				ui.displayError('Not authenticated. Run "tm auth login" first.');
 				process.exit(1);
 			}
 			// Check if org is selected
 			const context = this.authManager.getContext();
 			if (!context?.orgId) {
 				ui.displayError(
 					'No organization selected. Run "tm context org" first.'
 				);
 				process.exit(1);
 			}
 			const result = await this.selectBrief(context.orgId);
 			this.setLastResult(result);
 			if (!result.success) {
 				process.exit(1);
 			}
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Select a brief within the current organization
 	 */
 	private async selectBrief(orgId: string): Promise<ContextResult> {
 		const spinner = ora('Fetching briefs...').start();
 		try {
 			// Fetch briefs from API
 			const briefs = await this.authManager.getBriefs(orgId);
 			spinner.stop();
 			if (briefs.length === 0) {
 				ui.displayWarning('No briefs available in this organization');
 				return {
 					success: false,
 					action: 'select-brief',
 					message: 'No briefs available'
 				};
 			}
 			// Prompt for selection
 			const { selectedBrief } = await inquirer.prompt([
 				{
 					type: 'list',
 					name: 'selectedBrief',
 					message: 'Select a brief:',
 					choices: [
 						{ name: '(No brief - organization level)', value: null },
 						...briefs.map((brief) => ({
 							name: `Brief ${brief.id} (${new Date(brief.createdAt).toLocaleDateString()})`,
 							value: brief
 						}))
 					]
 				}
 			]);
 			if (selectedBrief) {
 				// Update context with brief
 				const briefName = `Brief ${selectedBrief.id.slice(0, 8)}`;
 				await this.authManager.updateContext({
 					briefId: selectedBrief.id,
 					briefName: briefName
 				});
 				ui.displaySuccess(`Selected brief: ${briefName}`);
 				return {
 					success: true,
 					action: 'select-brief',
 					context: this.authManager.getContext() || undefined,
 					message: `Selected brief: ${selectedBrief.name}`
 				};
 			} else {
 				// Clear brief selection
 				await this.authManager.updateContext({
 					briefId: undefined,
 					briefName: undefined
 				});
 				ui.displaySuccess('Cleared brief selection (organization level)');
 				return {
 					success: true,
 					action: 'select-brief',
 					context: this.authManager.getContext() || undefined,
 					message: 'Cleared brief selection'
 				};
 			}
 		} catch (error) {
 			spinner.fail('Failed to fetch briefs');
 			throw error;
 		}
 	}
 	/**
 	 * Execute clear context
 	 */
 	private async executeClear(): Promise<void> {
 		try {
 			// Check authentication
 			if (!this.authManager.isAuthenticated()) {
 				ui.displayError('Not authenticated. Run "tm auth login" first.');
 				process.exit(1);
 			}
 			const result = await this.clearContext();
 			this.setLastResult(result);
 			if (!result.success) {
 				process.exit(1);
 			}
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Clear all context selections
 	 */
 	private async clearContext(): Promise<ContextResult> {
 		try {
 			await this.authManager.clearContext();
 			ui.displaySuccess('Context cleared');
 			return {
 				success: true,
 				action: 'clear',
 				message: 'Context cleared'
 			};
 		} catch (error) {
 			ui.displayError(`Failed to clear context: ${(error as Error).message}`);
 			return {
 				success: false,
 				action: 'clear',
 				message: `Failed to clear context: ${(error as Error).message}`
 			};
 		}
 	}
 	/**
 	 * Execute set context with options
 	 */
 	private async executeSet(options: any): Promise<void> {
 		try {
 			// Check authentication
 			if (!this.authManager.isAuthenticated()) {
 				ui.displayError('Not authenticated. Run "tm auth login" first.');
 				process.exit(1);
 			}
 			const result = await this.setContext(options);
 			this.setLastResult(result);
 			if (!result.success) {
 				process.exit(1);
 			}
 		} catch (error: any) {
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Execute setting context from a brief ID or Hamster URL
 	 */
 	private async executeSetFromBriefInput(briefOrUrl: string): Promise<void> {
 		let spinner: Ora | undefined;
 		try {
 			// Check authentication
 			if (!this.authManager.isAuthenticated()) {
 				ui.displayError('Not authenticated. Run "tm auth login" first.');
 				process.exit(1);
 			}
 			spinner = ora('Resolving brief...');
 			spinner.start();
 			// Extract brief ID
 			const briefId = this.extractBriefId(briefOrUrl);
 			if (!briefId) {
 				spinner.fail('Could not extract a brief ID from the provided input');
 				ui.displayError(
 					`Provide a valid brief ID or a Hamster brief URL, e.g. https://${process.env.TM_PUBLIC_BASE_DOMAIN}/home/hamster/briefs/<id>`
 				);
 				process.exit(1);
 			}
 			// Fetch brief and resolve its organization
 			const brief = await this.authManager.getBrief(briefId);
 			if (!brief) {
 				spinner.fail('Brief not found or you do not have access');
 				process.exit(1);
 			}
 			// Fetch org to get a friendly name (optional)
 			let orgName: string | undefined;
 			try {
 				const org = await this.authManager.getOrganization(brief.accountId);
 				orgName = org?.name;
 			} catch {
 				// Non-fatal if org lookup fails
 			}
 			// Update context: set org and brief
 			const briefName = `Brief ${brief.id.slice(0, 8)}`;
 			await this.authManager.updateContext({
 				orgId: brief.accountId,
 				orgName,
 				briefId: brief.id,
 				briefName
 			});
 			spinner.succeed('Context set from brief');
 			console.log(
 				chalk.gray(
 					`  Organization: ${orgName || brief.accountId}\n  Brief: ${briefName}`
 				)
 			);
 			this.setLastResult({
 				success: true,
 				action: 'set',
 				context: this.authManager.getContext() || undefined,
 				message: 'Context set from brief'
 			});
 		} catch (error: any) {
 			try {
 				if (spinner?.isSpinning) spinner.stop();
 			} catch {}
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Extract a brief ID from raw input (ID or Hamster URL)
 	 */
 	private extractBriefId(input: string): string | null {
 		const raw = input?.trim() ?? '';
 		if (!raw) return null;
 		const parseUrl = (s: string): URL | null => {
 			try {
 				return new URL(s);
 			} catch {}
 			try {
 				return new URL(`https://${s}`);
 			} catch {}
 			return null;
 		};
 		const fromParts = (path: string): string | null => {
 			const parts = path.split('/').filter(Boolean);
 			const briefsIdx = parts.lastIndexOf('briefs');
 			const candidate =
 				briefsIdx >= 0 && parts.length > briefsIdx + 1
 					? parts[briefsIdx + 1]
 					: parts[parts.length - 1];
 			return candidate?.trim() || null;
 		};
 		// 1) URL (absolute or scheme‑less)
 		const url = parseUrl(raw);
 		if (url) {
 			const qId = url.searchParams.get('id') || url.searchParams.get('briefId');
 			const candidate = (qId || fromParts(url.pathname)) ?? null;
 			if (candidate) {
 				// Light sanity check; let API be the final validator
 				if (this.isLikelyId(candidate) || candidate.length >= 8)
 					return candidate;
 			}
 		}
 		// 2) Looks like a path without scheme
 		if (raw.includes('/')) {
 			const candidate = fromParts(raw);
 			if (candidate && (this.isLikelyId(candidate) || candidate.length >= 8)) {
 				return candidate;
 			}
 		}
 		// 3) Fallback: raw token
 		return raw;
 	}
 	/**
 	 * Heuristic to check if a string looks like a brief ID (UUID-like)
 	 */
 	private isLikelyId(value: string): boolean {
 		const uuidRegex =
 			/^[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}$/;
 		const ulidRegex = /^[0-9A-HJKMNP-TV-Z]{26}$/i; // ULID
 		const slugRegex = /^[A-Za-z0-9_-]{16,}$/; // general token
 		return (
 			uuidRegex.test(value) || ulidRegex.test(value) || slugRegex.test(value)
 		);
 	}
 	/**
 	 * Set context directly from options
 	 */
 	private async setContext(options: any): Promise<ContextResult> {
 		try {
 			const context: Partial<UserContext> = {};
 			if (options.org) {
 				context.orgId = options.org;
 			}
 			if (options.orgName) {
 				context.orgName = options.orgName;
 			}
 			if (options.brief) {
 				context.briefId = options.brief;
 			}
 			if (options.briefName) {
 				context.briefName = options.briefName;
 			}
 			if (Object.keys(context).length === 0) {
 				ui.displayWarning('No context options provided');
 				return {
 					success: false,
 					action: 'set',
 					message: 'No context options provided'
 				};
 			}
 			await this.authManager.updateContext(context);
 			ui.displaySuccess('Context updated');
 			// Display what was set
 			if (context.orgName || context.orgId) {
 				console.log(
 					chalk.gray(`  Organization: ${context.orgName || context.orgId}`)
 				);
 			}
 			if (context.briefName || context.briefId) {
 				console.log(
 					chalk.gray(`  Brief: ${context.briefName || context.briefId}`)
 				);
 			}
 			return {
 				success: true,
 				action: 'set',
 				context: this.authManager.getContext() || undefined,
 				message: 'Context updated'
 			};
 		} catch (error) {
 			ui.displayError(`Failed to set context: ${(error as Error).message}`);
 			return {
 				success: false,
 				action: 'set',
 				message: `Failed to set context: ${(error as Error).message}`
 			};
 		}
 	}
 	/**
 	 * Handle errors
 	 */
 	private handleError(error: any): void {
 		if (error instanceof AuthenticationError) {
 			console.error(chalk.red(`\n✗ ${error.message}`));
 			if (error.code === 'NOT_AUTHENTICATED') {
 				ui.displayWarning('Please authenticate first: tm auth login');
 			}
 		} else {
 			const msg = error?.message ?? String(error);
 			console.error(chalk.red(`Error: ${msg}`));
 			if (error.stack && process.env.DEBUG) {
 				console.error(chalk.gray(error.stack));
 			}
 		}
 	}
 	/**
 	 * Set the last result for programmatic access
 	 */
 	private setLastResult(result: ContextResult): void {
 		this.lastResult = result;
 	}
 	/**
 	 * Get the last result (for programmatic usage)
 	 */
 	getLastResult(): ContextResult | undefined {
 		return this.lastResult;
 	}
 	/**
 	 * Get current context (for programmatic usage)
 	 */
 	getContext(): UserContext | null {
 		return this.authManager.getContext();
 	}
 	/**
 	 * Clean up resources
 	 */
 	async cleanup(): Promise<void> {
 		// No resources to clean up for context command
 	}
 	/**
 	 * Static method to register this command on an existing program
 	 */
 	static registerOn(program: Command): Command {
 		const contextCommand = new ContextCommand();
 		program.addCommand(contextCommand);
 		return contextCommand;
 	}
 	/**
 	 * Alternative registration that returns the command for chaining
 	 */
 	static register(program: Command, name?: string): ContextCommand {
 		const contextCommand = new ContextCommand(name);
 		program.addCommand(contextCommand);
 		return contextCommand;
 	}
 }
--- a/apps/cli/src/commands/list.command.ts
+++ b/apps/cli/src/commands/list.command.ts
@@ -0,0 +1,488 @@
 /**
 * @fileoverview ListTasks command using Commander's native class pattern
 * Extends Commander.Command for better integration with the framework
 */
 import { Command } from 'commander';
 import chalk from 'chalk';
 import {
 	createTaskMasterCore,
 	type Task,
 	type TaskStatus,
 	type TaskMasterCore,
 	TASK_STATUSES,
 	OUTPUT_FORMATS,
 	STATUS_ICONS,
 	type OutputFormat
 } from '@tm/core';
 import type { StorageType } from '@tm/core/types';
 import * as ui from '../utils/ui.js';
 import {
 	displayHeader,
 	displayDashboards,
 	calculateTaskStatistics,
 	calculateSubtaskStatistics,
 	calculateDependencyStatistics,
 	getPriorityBreakdown,
 	displayRecommendedNextTask,
 	getTaskDescription,
 	displaySuggestedNextSteps,
 	type NextTaskInfo
 } from '../ui/index.js';
 /**
 * Options interface for the list command
 */
 export interface ListCommandOptions {
 	status?: string;
 	tag?: string;
 	withSubtasks?: boolean;
 	format?: OutputFormat;
 	silent?: boolean;
 	project?: string;
 }
 /**
 * Result type from list command
 */
 export interface ListTasksResult {
 	tasks: Task[];
 	total: number;
 	filtered: number;
 	tag?: string;
 	storageType: Exclude<StorageType, 'auto'>;
 }
 /**
 * ListTasksCommand extending Commander's Command class
 * This is a thin presentation layer over @tm/core
 */
 export class ListTasksCommand extends Command {
 	private tmCore?: TaskMasterCore;
 	private lastResult?: ListTasksResult;
 	constructor(name?: string) {
 		super(name || 'list');
 		// Configure the command
 		this.description('List tasks with optional filtering')
 			.alias('ls')
 			.option('-s, --status <status>', 'Filter by status (comma-separated)')
 			.option('-t, --tag <tag>', 'Filter by tag')
 			.option('--with-subtasks', 'Include subtasks in the output')
 			.option(
 				'-f, --format <format>',
 				'Output format (text, json, compact)',
 				'text'
 			)
 			.option('--silent', 'Suppress output (useful for programmatic usage)')
 			.option('-p, --project <path>', 'Project root directory', process.cwd())
 			.action(async (options: ListCommandOptions) => {
 				await this.executeCommand(options);
 			});
 	}
 	/**
 	 * Execute the list command
 	 */
 	private async executeCommand(options: ListCommandOptions): Promise<void> {
 		try {
 			// Validate options
 			if (!this.validateOptions(options)) {
 				process.exit(1);
 			}
 			// Initialize tm-core
 			await this.initializeCore(options.project || process.cwd());
 			// Get tasks from core
 			const result = await this.getTasks(options);
 			// Store result for programmatic access
 			this.setLastResult(result);
 			// Display results
 			if (!options.silent) {
 				this.displayResults(result, options);
 			}
 		} catch (error: any) {
 			const msg = error?.getSanitizedDetails?.() ?? {
 				message: error?.message ?? String(error)
 			};
 			console.error(chalk.red(`Error: ${msg.message || 'Unexpected error'}`));
 			if (error.stack && process.env.DEBUG) {
 				console.error(chalk.gray(error.stack));
 			}
 			process.exit(1);
 		}
 	}
 	/**
 	 * Validate command options
 	 */
 	private validateOptions(options: ListCommandOptions): boolean {
 		// Validate format
 		if (
 			options.format &&
 			!OUTPUT_FORMATS.includes(options.format as OutputFormat)
 		) {
 			console.error(chalk.red(`Invalid format: ${options.format}`));
 			console.error(chalk.gray(`Valid formats: ${OUTPUT_FORMATS.join(', ')}`));
 			return false;
 		}
 		// Validate status
 		if (options.status) {
 			const statuses = options.status.split(',').map((s: string) => s.trim());
 			for (const status of statuses) {
 				if (status !== 'all' && !TASK_STATUSES.includes(status as TaskStatus)) {
 					console.error(chalk.red(`Invalid status: ${status}`));
 					console.error(
 						chalk.gray(`Valid statuses: ${TASK_STATUSES.join(', ')}`)
 					);
 					return false;
 				}
 			}
 		}
 		return true;
 	}
 	/**
 	 * Initialize TaskMasterCore
 	 */
 	private async initializeCore(projectRoot: string): Promise<void> {
 		if (!this.tmCore) {
 			this.tmCore = await createTaskMasterCore({ projectPath: projectRoot });
 		}
 	}
 	/**
 	 * Get tasks from tm-core
 	 */
 	private async getTasks(
 		options: ListCommandOptions
 	): Promise<ListTasksResult> {
 		if (!this.tmCore) {
 			throw new Error('TaskMasterCore not initialized');
 		}
 		// Build filter
 		const filter =
 			options.status && options.status !== 'all'
 				? {
 						status: options.status
 							.split(',')
 							.map((s: string) => s.trim() as TaskStatus)
 					}
 				: undefined;
 		// Call tm-core
 		const result = await this.tmCore.getTaskList({
 			tag: options.tag,
 			filter,
 			includeSubtasks: options.withSubtasks
 		});
 		return result as ListTasksResult;
 	}
 	/**
 	 * Display results based on format
 	 */
 	private displayResults(
 		result: ListTasksResult,
 		options: ListCommandOptions
 	): void {
 		const format = (options.format || 'text') as OutputFormat | 'text';
 		switch (format) {
 			case 'json':
 				this.displayJson(result);
 				break;
 			case 'compact':
 				this.displayCompact(result.tasks, options.withSubtasks);
 				break;
 			case 'text':
 			default:
 				this.displayText(result, options.withSubtasks);
 				break;
 		}
 	}
 	/**
 	 * Display in JSON format
 	 */
 	private displayJson(data: ListTasksResult): void {
 		console.log(
 			JSON.stringify(
 				{
 					tasks: data.tasks,
 					metadata: {
 						total: data.total,
 						filtered: data.filtered,
 						tag: data.tag,
 						storageType: data.storageType
 					}
 				},
 				null,
 				2
 			)
 		);
 	}
 	/**
 	 * Display in compact format
 	 */
 	private displayCompact(tasks: Task[], withSubtasks?: boolean): void {
 		tasks.forEach((task) => {
 			const icon = STATUS_ICONS[task.status];
 			console.log(`${chalk.cyan(task.id)} ${icon} ${task.title}`);
 			if (withSubtasks && task.subtasks?.length) {
 				task.subtasks.forEach((subtask) => {
 					const subIcon = STATUS_ICONS[subtask.status];
 					console.log(
 						`  ${chalk.gray(`${task.id}.${subtask.id}`)} ${subIcon} ${chalk.gray(subtask.title)}`
 					);
 				});
 			}
 		});
 	}
 	/**
 	 * Display in text format with tables
 	 */
 	private displayText(data: ListTasksResult, withSubtasks?: boolean): void {
 		const { tasks, tag } = data;
 		// Get file path for display
 		const filePath = this.tmCore ? `.taskmaster/tasks/tasks.json` : undefined;
 		// Display header without banner (banner already shown by main CLI)
 		displayHeader({
 			tag: tag || 'master',
 			filePath: filePath
 		});
 		// No tasks message
 		if (tasks.length === 0) {
 			ui.displayWarning('No tasks found matching the criteria.');
 			return;
 		}
 		// Calculate statistics
 		const taskStats = calculateTaskStatistics(tasks);
 		const subtaskStats = calculateSubtaskStatistics(tasks);
 		const depStats = calculateDependencyStatistics(tasks);
 		const priorityBreakdown = getPriorityBreakdown(tasks);
 		// Find next task following the same logic as findNextTask
 		const nextTask = this.findNextTask(tasks);
 		// Display dashboard boxes
 		displayDashboards(
 			taskStats,
 			subtaskStats,
 			priorityBreakdown,
 			depStats,
 			nextTask
 		);
 		// Task table - no title, just show the table directly
 		console.log(
 			ui.createTaskTable(tasks, {
 				showSubtasks: withSubtasks,
 				showDependencies: true,
 				showComplexity: true // Enable complexity column
 			})
 		);
 		// Display recommended next task section immediately after table
 		if (nextTask) {
 			// Find the full task object to get description
 			const fullTask = tasks.find((t) => String(t.id) === String(nextTask.id));
 			const description = fullTask ? getTaskDescription(fullTask) : undefined;
 			displayRecommendedNextTask({
 				...nextTask,
 				status: 'pending', // Next task is typically pending
 				description
 			});
 		} else {
 			displayRecommendedNextTask(undefined);
 		}
 		// Display suggested next steps at the end
 		displaySuggestedNextSteps();
 	}
 	/**
 	 * Set the last result for programmatic access
 	 */
 	private setLastResult(result: ListTasksResult): void {
 		this.lastResult = result;
 	}
 	/**
 	 * Find the next task to work on
 	 * Implements the same logic as scripts/modules/task-manager/find-next-task.js
 	 */
 	private findNextTask(tasks: Task[]): NextTaskInfo | undefined {
 		const priorityValues: Record<string, number> = {
 			critical: 4,
 			high: 3,
 			medium: 2,
 			low: 1
 		};
 		// Build set of completed task IDs (including subtasks)
 		const completedIds = new Set<string>();
 		tasks.forEach((t) => {
 			if (t.status === 'done' || t.status === 'completed') {
 				completedIds.add(String(t.id));
 			}
 			if (t.subtasks) {
 				t.subtasks.forEach((st) => {
 					if (st.status === 'done' || st.status === 'completed') {
 						completedIds.add(`${t.id}.${st.id}`);
 					}
 				});
 			}
 		});
 		// First, look for eligible subtasks in in-progress parent tasks
 		const candidateSubtasks: NextTaskInfo[] = [];
 		tasks
 			.filter(
 				(t) => t.status === 'in-progress' && t.subtasks && t.subtasks.length > 0
 			)
 			.forEach((parent) => {
 				parent.subtasks!.forEach((st) => {
 					const stStatus = (st.status || 'pending').toLowerCase();
 					if (stStatus !== 'pending' && stStatus !== 'in-progress') return;
 					// Check if dependencies are satisfied
 					const fullDeps =
 						st.dependencies?.map((d) => {
 							// Handle both numeric and string IDs
 							if (typeof d === 'string' && d.includes('.')) {
 								return d;
 							}
 							return `${parent.id}.${d}`;
 						}) ?? [];
 					const depsSatisfied =
 						fullDeps.length === 0 ||
 						fullDeps.every((depId) => completedIds.has(String(depId)));
 					if (depsSatisfied) {
 						candidateSubtasks.push({
 							id: `${parent.id}.${st.id}`,
 							title: st.title || `Subtask ${st.id}`,
 							priority: st.priority || parent.priority || 'medium',
 							dependencies: fullDeps.map((d) => String(d))
 						});
 					}
 				});
 			});
 		if (candidateSubtasks.length > 0) {
 			// Sort by priority, then by dependencies count, then by ID
 			candidateSubtasks.sort((a, b) => {
 				const pa = priorityValues[a.priority || 'medium'] ?? 2;
 				const pb = priorityValues[b.priority || 'medium'] ?? 2;
 				if (pb !== pa) return pb - pa;
 				const depCountA = a.dependencies?.length || 0;
 				const depCountB = b.dependencies?.length || 0;
 				if (depCountA !== depCountB) return depCountA - depCountB;
 				return String(a.id).localeCompare(String(b.id));
 			});
 			return candidateSubtasks[0];
 		}
 		// Fall back to finding eligible top-level tasks
 		const eligibleTasks = tasks.filter((task) => {
 			// Skip non-eligible statuses
 			const status = (task.status || 'pending').toLowerCase();
 			if (status !== 'pending' && status !== 'in-progress') return false;
 			// Check dependencies
 			const deps = task.dependencies || [];
 			const depsSatisfied =
 				deps.length === 0 ||
 				deps.every((depId) => completedIds.has(String(depId)));
 			return depsSatisfied;
 		});
 		if (eligibleTasks.length === 0) return undefined;
 		// Sort eligible tasks
 		eligibleTasks.sort((a, b) => {
 			// Priority (higher first)
 			const pa = priorityValues[a.priority || 'medium'] ?? 2;
 			const pb = priorityValues[b.priority || 'medium'] ?? 2;
 			if (pb !== pa) return pb - pa;
 			// Dependencies count (fewer first)
 			const depCountA = a.dependencies?.length || 0;
 			const depCountB = b.dependencies?.length || 0;
 			if (depCountA !== depCountB) return depCountA - depCountB;
 			// ID (lower first)
 			return Number(a.id) - Number(b.id);
 		});
 		const nextTask = eligibleTasks[0];
 		return {
 			id: nextTask.id,
 			title: nextTask.title,
 			priority: nextTask.priority,
 			dependencies: nextTask.dependencies?.map((d) => String(d))
 		};
 	}
 	/**
 	 * Get the last result (for programmatic usage)
 	 */
 	getLastResult(): ListTasksResult | undefined {
 		return this.lastResult;
 	}
 	/**
 	 * Clean up resources
 	 */
 	async cleanup(): Promise<void> {
 		if (this.tmCore) {
 			await this.tmCore.close();
 			this.tmCore = undefined;
 		}
 	}
 	/**
 	 * Static method to register this command on an existing program
 	 * This is for gradual migration - allows commands.js to use this
 	 */
 	static registerOn(program: Command): Command {
 		const listCommand = new ListTasksCommand();
 		program.addCommand(listCommand);
 		return listCommand;
 	}
 	/**
 	 * Alternative registration that returns the command for chaining
 	 * Can also configure the command name if needed
 	 */
 	static register(program: Command, name?: string): ListTasksCommand {
 		const listCommand = new ListTasksCommand(name);
 		program.addCommand(listCommand);
 		return listCommand;
 	}
 }
--- a/apps/cli/src/commands/set-status.command.ts
+++ b/apps/cli/src/commands/set-status.command.ts
@@ -0,0 +1,318 @@
 /**
 * @fileoverview SetStatusCommand using Commander's native class pattern
 * Extends Commander.Command for better integration with the framework
 */
 import { Command } from 'commander';
 import chalk from 'chalk';
 import boxen from 'boxen';
 import {
 	createTaskMasterCore,
 	type TaskMasterCore,
 	type TaskStatus
 } from '@tm/core';
 import type { StorageType } from '@tm/core/types';
 /**
 * Valid task status values for validation
 */
 const VALID_TASK_STATUSES: TaskStatus[] = [
 	'pending',
 	'in-progress',
 	'done',
 	'deferred',
 	'cancelled',
 	'blocked',
 	'review'
 ];
 /**
 * Options interface for the set-status command
 */
 export interface SetStatusCommandOptions {
 	id?: string;
 	status?: TaskStatus;
 	format?: 'text' | 'json';
 	silent?: boolean;
 	project?: string;
 }
 /**
 * Result type from set-status command
 */
 export interface SetStatusResult {
 	success: boolean;
 	updatedTasks: Array<{
 		taskId: string;
 		oldStatus: TaskStatus;
 		newStatus: TaskStatus;
 	}>;
 	storageType: Exclude<StorageType, 'auto'>;
 }
 /**
 * SetStatusCommand extending Commander's Command class
 * This is a thin presentation layer over @tm/core
 */
 export class SetStatusCommand extends Command {
 	private tmCore?: TaskMasterCore;
 	private lastResult?: SetStatusResult;
 	constructor(name?: string) {
 		super(name || 'set-status');
 		// Configure the command
 		this.description('Update the status of one or more tasks')
 			.requiredOption(
 				'-i, --id <id>',
 				'Task ID(s) to update (comma-separated for multiple, supports subtasks like 5.2)'
 			)
 			.requiredOption(
 				'-s, --status <status>',
 				`New status (${VALID_TASK_STATUSES.join(', ')})`
 			)
 			.option('-f, --format <format>', 'Output format (text, json)', 'text')
 			.option('--silent', 'Suppress output (useful for programmatic usage)')
 			.option('-p, --project <path>', 'Project root directory', process.cwd())
 			.action(async (options: SetStatusCommandOptions) => {
 				await this.executeCommand(options);
 			});
 	}
 	/**
 	 * Execute the set-status command
 	 */
 	private async executeCommand(
 		options: SetStatusCommandOptions
 	): Promise<void> {
 		try {
 			// Validate required options
 			if (!options.id) {
 				console.error(chalk.red('Error: Task ID is required. Use -i or --id'));
 				process.exit(1);
 			}
 			if (!options.status) {
 				console.error(
 					chalk.red('Error: Status is required. Use -s or --status')
 				);
 				process.exit(1);
 			}
 			// Validate status
 			if (!VALID_TASK_STATUSES.includes(options.status)) {
 				console.error(
 					chalk.red(
 						`Error: Invalid status "${options.status}". Valid options: ${VALID_TASK_STATUSES.join(', ')}`
 					)
 				);
 				process.exit(1);
 			}
 			// Initialize TaskMaster core
 			this.tmCore = await createTaskMasterCore({
 				projectPath: options.project || process.cwd()
 			});
 			// Parse task IDs (handle comma-separated values)
 			const taskIds = options.id.split(',').map((id) => id.trim());
 			// Update each task
 			const updatedTasks: Array<{
 				taskId: string;
 				oldStatus: TaskStatus;
 				newStatus: TaskStatus;
 			}> = [];
 			for (const taskId of taskIds) {
 				try {
 					const result = await this.tmCore.updateTaskStatus(
 						taskId,
 						options.status
 					);
 					updatedTasks.push({
 						taskId: result.taskId,
 						oldStatus: result.oldStatus,
 						newStatus: result.newStatus
 					});
 				} catch (error) {
 					const errorMessage =
 						error instanceof Error ? error.message : String(error);
 					if (!options.silent) {
 						console.error(
 							chalk.red(`Failed to update task ${taskId}: ${errorMessage}`)
 						);
 					}
 					if (options.format === 'json') {
 						console.log(
 							JSON.stringify({
 								success: false,
 								error: errorMessage,
 								taskId,
 								timestamp: new Date().toISOString()
 							})
 						);
 					}
 					process.exit(1);
 				}
 			}
 			// Store result for potential reuse
 			this.lastResult = {
 				success: true,
 				updatedTasks,
 				storageType: this.tmCore.getStorageType() as Exclude<
 					StorageType,
 					'auto'
 				>
 			};
 			// Display results
 			this.displayResults(this.lastResult, options);
 		} catch (error) {
 			const errorMessage =
 				error instanceof Error ? error.message : 'Unknown error occurred';
 			if (!options.silent) {
 				console.error(chalk.red(`Error: ${errorMessage}`));
 			}
 			if (options.format === 'json') {
 				console.log(JSON.stringify({ success: false, error: errorMessage }));
 			}
 			process.exit(1);
 		} finally {
 			// Clean up resources
 			if (this.tmCore) {
 				await this.tmCore.close();
 			}
 		}
 	}
 	/**
 	 * Display results based on format
 	 */
 	private displayResults(
 		result: SetStatusResult,
 		options: SetStatusCommandOptions
 	): void {
 		const format = options.format || 'text';
 		switch (format) {
 			case 'json':
 				console.log(JSON.stringify(result, null, 2));
 				break;
 			case 'text':
 			default:
 				if (!options.silent) {
 					this.displayTextResults(result);
 				}
 				break;
 		}
 	}
 	/**
 	 * Display results in text format
 	 */
 	private displayTextResults(result: SetStatusResult): void {
 		if (result.updatedTasks.length === 1) {
 			// Single task update
 			const update = result.updatedTasks[0];
 			console.log(
 				boxen(
 					chalk.white.bold(`✅ Successfully updated task ${update.taskId}`) +
 						'\n\n' +
 						`${chalk.blue('From:')} ${this.getStatusDisplay(update.oldStatus)}\n` +
 						`${chalk.blue('To:')}   ${this.getStatusDisplay(update.newStatus)}`,
 					{
 						padding: 1,
 						borderColor: 'green',
 						borderStyle: 'round',
 						margin: { top: 1 }
 					}
 				)
 			);
 		} else {
 			// Multiple task updates
 			console.log(
 				boxen(
 					chalk.white.bold(
 						`✅ Successfully updated ${result.updatedTasks.length} tasks`
 					) +
 						'\n\n' +
 						result.updatedTasks
 							.map(
 								(update) =>
 									`${chalk.cyan(update.taskId)}: ${this.getStatusDisplay(update.oldStatus)} → ${this.getStatusDisplay(update.newStatus)}`
 							)
 							.join('\n'),
 					{
 						padding: 1,
 						borderColor: 'green',
 						borderStyle: 'round',
 						margin: { top: 1 }
 					}
 				)
 			);
 		}
 		// Show storage info
 		console.log(chalk.gray(`\nUsing ${result.storageType} storage`));
 	}
 	/**
 	 * Get colored status display
 	 */
 	private getStatusDisplay(status: TaskStatus): string {
 		const statusColors: Record<TaskStatus, (text: string) => string> = {
 			pending: chalk.yellow,
 			'in-progress': chalk.blue,
 			done: chalk.green,
 			deferred: chalk.gray,
 			cancelled: chalk.red,
 			blocked: chalk.red,
 			review: chalk.magenta,
 			completed: chalk.green
 		};
 		const colorFn = statusColors[status] || chalk.white;
 		return colorFn(status);
 	}
 	/**
 	 * Get the last command result (useful for testing or chaining)
 	 */
 	getLastResult(): SetStatusResult | undefined {
 		return this.lastResult;
 	}
 	/**
 	 * Static method to register this command on an existing program
 	 * This is for gradual migration - allows commands.js to use this
 	 */
 	static registerOn(program: Command): Command {
 		const setStatusCommand = new SetStatusCommand();
 		program.addCommand(setStatusCommand);
 		return setStatusCommand;
 	}
 	/**
 	 * Alternative registration that returns the command for chaining
 	 * Can also configure the command name if needed
 	 */
 	static register(program: Command, name?: string): SetStatusCommand {
 		const setStatusCommand = new SetStatusCommand(name);
 		program.addCommand(setStatusCommand);
 		return setStatusCommand;
 	}
 }
 /**
 * Factory function to create and configure the set-status command
 */
 export function createSetStatusCommand(): SetStatusCommand {
 	return new SetStatusCommand();
 }
--- a/apps/cli/src/commands/show.command.ts
+++ b/apps/cli/src/commands/show.command.ts
@@ -0,0 +1,343 @@
 /**
 * @fileoverview ShowCommand using Commander's native class pattern
 * Extends Commander.Command for better integration with the framework
 */
 import { Command } from 'commander';
 import chalk from 'chalk';
 import boxen from 'boxen';
 import { createTaskMasterCore, type Task, type TaskMasterCore } from '@tm/core';
 import type { StorageType } from '@tm/core/types';
 import * as ui from '../utils/ui.js';
 import { displayTaskDetails } from '../ui/components/task-detail.component.js';
 /**
 * Options interface for the show command
 */
 export interface ShowCommandOptions {
 	id?: string;
 	status?: string;
 	format?: 'text' | 'json';
 	silent?: boolean;
 	project?: string;
 }
 /**
 * Result type from show command
 */
 export interface ShowTaskResult {
 	task: Task | null;
 	found: boolean;
 	storageType: Exclude<StorageType, 'auto'>;
 }
 /**
 * Result type for multiple tasks
 */
 export interface ShowMultipleTasksResult {
 	tasks: Task[];
 	notFound: string[];
 	storageType: Exclude<StorageType, 'auto'>;
 }
 /**
 * ShowCommand extending Commander's Command class
 * This is a thin presentation layer over @tm/core
 */
 export class ShowCommand extends Command {
 	private tmCore?: TaskMasterCore;
 	private lastResult?: ShowTaskResult | ShowMultipleTasksResult;
 	constructor(name?: string) {
 		super(name || 'show');
 		// Configure the command
 		this.description('Display detailed information about one or more tasks')
 			.argument('[id]', 'Task ID(s) to show (comma-separated for multiple)')
 			.option(
 				'-i, --id <id>',
 				'Task ID(s) to show (comma-separated for multiple)'
 			)
 			.option('-s, --status <status>', 'Filter subtasks by status')
 			.option('-f, --format <format>', 'Output format (text, json)', 'text')
 			.option('--silent', 'Suppress output (useful for programmatic usage)')
 			.option('-p, --project <path>', 'Project root directory', process.cwd())
 			.action(
 				async (taskId: string | undefined, options: ShowCommandOptions) => {
 					await this.executeCommand(taskId, options);
 				}
 			);
 	}
 	/**
 	 * Execute the show command
 	 */
 	private async executeCommand(
 		taskId: string | undefined,
 		options: ShowCommandOptions
 	): Promise<void> {
 		try {
 			// Validate options
 			if (!this.validateOptions(options)) {
 				process.exit(1);
 			}
 			// Initialize tm-core
 			await this.initializeCore(options.project || process.cwd());
 			// Get the task ID from argument or option
 			const idArg = taskId || options.id;
 			if (!idArg) {
 				console.error(chalk.red('Error: Please provide a task ID'));
 				process.exit(1);
 			}
 			// Check if multiple IDs are provided (comma-separated)
 			const taskIds = idArg
 				.split(',')
 				.map((id) => id.trim())
 				.filter((id) => id.length > 0);
 			// Get tasks from core
 			const result =
 				taskIds.length > 1
 					? await this.getMultipleTasks(taskIds, options)
 					: await this.getSingleTask(taskIds[0], options);
 			// Store result for programmatic access
 			this.setLastResult(result);
 			// Display results
 			if (!options.silent) {
 				this.displayResults(result, options);
 			}
 		} catch (error: any) {
 			const msg = error?.getSanitizedDetails?.() ?? {
 				message: error?.message ?? String(error)
 			};
 			console.error(chalk.red(`Error: ${msg.message || 'Unexpected error'}`));
 			if (error.stack && process.env.DEBUG) {
 				console.error(chalk.gray(error.stack));
 			}
 			process.exit(1);
 		}
 	}
 	/**
 	 * Validate command options
 	 */
 	private validateOptions(options: ShowCommandOptions): boolean {
 		// Validate format
 		if (options.format && !['text', 'json'].includes(options.format)) {
 			console.error(chalk.red(`Invalid format: ${options.format}`));
 			console.error(chalk.gray(`Valid formats: text, json`));
 			return false;
 		}
 		return true;
 	}
 	/**
 	 * Initialize TaskMasterCore
 	 */
 	private async initializeCore(projectRoot: string): Promise<void> {
 		if (!this.tmCore) {
 			this.tmCore = await createTaskMasterCore({ projectPath: projectRoot });
 		}
 	}
 	/**
 	 * Get a single task from tm-core
 	 */
 	private async getSingleTask(
 		taskId: string,
 		_options: ShowCommandOptions
 	): Promise<ShowTaskResult> {
 		if (!this.tmCore) {
 			throw new Error('TaskMasterCore not initialized');
 		}
 		// Get the task
 		const task = await this.tmCore.getTask(taskId);
 		// Get storage type
 		const storageType = this.tmCore.getStorageType();
 		return {
 			task,
 			found: task !== null,
 			storageType: storageType as Exclude<StorageType, 'auto'>
 		};
 	}
 	/**
 	 * Get multiple tasks from tm-core
 	 */
 	private async getMultipleTasks(
 		taskIds: string[],
 		_options: ShowCommandOptions
 	): Promise<ShowMultipleTasksResult> {
 		if (!this.tmCore) {
 			throw new Error('TaskMasterCore not initialized');
 		}
 		const tasks: Task[] = [];
 		const notFound: string[] = [];
 		// Get each task individually
 		for (const taskId of taskIds) {
 			const task = await this.tmCore.getTask(taskId);
 			if (task) {
 				tasks.push(task);
 			} else {
 				notFound.push(taskId);
 			}
 		}
 		// Get storage type
 		const storageType = this.tmCore.getStorageType();
 		return {
 			tasks,
 			notFound,
 			storageType: storageType as Exclude<StorageType, 'auto'>
 		};
 	}
 	/**
 	 * Display results based on format
 	 */
 	private displayResults(
 		result: ShowTaskResult | ShowMultipleTasksResult,
 		options: ShowCommandOptions
 	): void {
 		const format = options.format || 'text';
 		switch (format) {
 			case 'json':
 				this.displayJson(result);
 				break;
 			case 'text':
 			default:
 				if ('task' in result) {
 					// Single task result
 					this.displaySingleTask(result, options);
 				} else {
 					// Multiple tasks result
 					this.displayMultipleTasks(result, options);
 				}
 				break;
 		}
 	}
 	/**
 	 * Display in JSON format
 	 */
 	private displayJson(result: ShowTaskResult | ShowMultipleTasksResult): void {
 		console.log(JSON.stringify(result, null, 2));
 	}
 	/**
 	 * Display a single task in text format
 	 */
 	private displaySingleTask(
 		result: ShowTaskResult,
 		options: ShowCommandOptions
 	): void {
 		if (!result.found || !result.task) {
 			console.log(
 				boxen(chalk.yellow(`Task not found!`), {
 					padding: { top: 0, bottom: 0, left: 1, right: 1 },
 					borderColor: 'yellow',
 					borderStyle: 'round',
 					margin: { top: 1 }
 				})
 			);
 			return;
 		}
 		// Use the global task details display function
 		displayTaskDetails(result.task, {
 			statusFilter: options.status,
 			showSuggestedActions: true
 		});
 	}
 	/**
 	 * Display multiple tasks in text format
 	 */
 	private displayMultipleTasks(
 		result: ShowMultipleTasksResult,
 		_options: ShowCommandOptions
 	): void {
 		// Header
 		ui.displayBanner(`Tasks (${result.tasks.length} found)`);
 		if (result.notFound.length > 0) {
 			console.log(chalk.yellow(`\n⚠ Not found: ${result.notFound.join(', ')}`));
 		}
 		if (result.tasks.length === 0) {
 			ui.displayWarning('No tasks found matching the criteria.');
 			return;
 		}
 		// Task table
 		console.log(chalk.blue.bold(`\n📋 Tasks:\n`));
 		console.log(
 			ui.createTaskTable(result.tasks, {
 				showSubtasks: true,
 				showDependencies: true
 			})
 		);
 		console.log(`\n${chalk.gray('Storage: ' + result.storageType)}`);
 	}
 	/**
 	 * Set the last result for programmatic access
 	 */
 	private setLastResult(
 		result: ShowTaskResult | ShowMultipleTasksResult
 	): void {
 		this.lastResult = result;
 	}
 	/**
 	 * Get the last result (for programmatic usage)
 	 */
 	getLastResult(): ShowTaskResult | ShowMultipleTasksResult | undefined {
 		return this.lastResult;
 	}
 	/**
 	 * Clean up resources
 	 */
 	async cleanup(): Promise<void> {
 		if (this.tmCore) {
 			await this.tmCore.close();
 			this.tmCore = undefined;
 		}
 	}
 	/**
 	 * Static method to register this command on an existing program
 	 * This is for gradual migration - allows commands.js to use this
 	 */
 	static registerOn(program: Command): Command {
 		const showCommand = new ShowCommand();
 		program.addCommand(showCommand);
 		return showCommand;
 	}
 	/**
 	 * Alternative registration that returns the command for chaining
 	 * Can also configure the command name if needed
 	 */
 	static register(program: Command, name?: string): ShowCommand {
 		const showCommand = new ShowCommand(name);
 		program.addCommand(showCommand);
 		return showCommand;
 	}
 }
--- a/apps/cli/src/commands/start.command.ts
+++ b/apps/cli/src/commands/start.command.ts
@@ -0,0 +1,512 @@
 /**
 * @fileoverview StartCommand using Commander's native class pattern
 * Extends Commander.Command for better integration with the framework
 * This is a thin presentation layer over @tm/core's TaskExecutionService
 */
 import { Command } from 'commander';
 import chalk from 'chalk';
 import boxen from 'boxen';
 import ora, { type Ora } from 'ora';
 import { spawn } from 'child_process';
 import {
 	createTaskMasterCore,
 	type TaskMasterCore,
 	type StartTaskResult as CoreStartTaskResult
 } from '@tm/core';
 import { displayTaskDetails } from '../ui/components/task-detail.component.js';
 import * as ui from '../utils/ui.js';
 /**
 * CLI-specific options interface for the start command
 */
 export interface StartCommandOptions {
 	id?: string;
 	format?: 'text' | 'json';
 	project?: string;
 	dryRun?: boolean;
 	force?: boolean;
 	noStatusUpdate?: boolean;
 }
 /**
 * CLI-specific result type from start command
 * Extends the core result with CLI-specific display information
 */
 export interface StartCommandResult extends CoreStartTaskResult {
 	storageType?: string;
 }
 /**
 * StartCommand extending Commander's Command class
 * This is a thin presentation layer over @tm/core's TaskExecutionService
 */
 export class StartCommand extends Command {
 	private tmCore?: TaskMasterCore;
 	private lastResult?: StartCommandResult;
 	constructor(name?: string) {
 		super(name || 'start');
 		// Configure the command
 		this.description(
 			'Start working on a task by launching claude-code with context'
 		)
 			.argument('[id]', 'Task ID to start working on')
 			.option('-i, --id <id>', 'Task ID to start working on')
 			.option('-f, --format <format>', 'Output format (text, json)', 'text')
 			.option('-p, --project <path>', 'Project root directory', process.cwd())
 			.option(
 				'--dry-run',
 				'Show what would be executed without launching claude-code'
 			)
 			.option(
 				'--force',
 				'Force start even if another task is already in-progress'
 			)
 			.option(
 				'--no-status-update',
 				'Do not automatically update task status to in-progress'
 			)
 			.action(
 				async (taskId: string | undefined, options: StartCommandOptions) => {
 					await this.executeCommand(taskId, options);
 				}
 			);
 	}
 	/**
 	 * Execute the start command
 	 */
 	private async executeCommand(
 		taskId: string | undefined,
 		options: StartCommandOptions
 	): Promise<void> {
 		let spinner: Ora | null = null;
 		try {
 			// Validate options
 			if (!this.validateOptions(options)) {
 				process.exit(1);
 			}
 			// Initialize tm-core with spinner
 			spinner = ora('Initializing Task Master...').start();
 			await this.initializeCore(options.project || process.cwd());
 			spinner.succeed('Task Master initialized');
 			// Get the task ID from argument or option, or find next available task
 			const idArg = taskId || options.id || null;
 			let targetTaskId = idArg;
 			if (!targetTaskId) {
 				spinner = ora('Finding next available task...').start();
 				targetTaskId = await this.performGetNextTask();
 				if (targetTaskId) {
 					spinner.succeed(`Found next task: #${targetTaskId}`);
 				} else {
 					spinner.fail('No available tasks found');
 				}
 			}
 			if (!targetTaskId) {
 				ui.displayError('No task ID provided and no available tasks found');
 				process.exit(1);
 			}
 			// Show pre-launch message (no spinner needed, it's just display)
 			if (!options.dryRun) {
 				await this.showPreLaunchMessage(targetTaskId);
 			}
 			// Use tm-core's startTask method with spinner
 			spinner = ora('Preparing task execution...').start();
 			const coreResult = await this.performStartTask(targetTaskId, options);
 			if (coreResult.started) {
 				spinner.succeed(
 					options.dryRun
 						? 'Dry run completed'
 						: 'Task prepared - launching Claude...'
 				);
 			} else {
 				spinner.fail('Task execution failed');
 			}
 			// Execute command if we have one and it's not a dry run
 			if (!options.dryRun && coreResult.command) {
 				// Stop any remaining spinners before launching Claude
 				if (spinner && !spinner.isSpinning) {
 					// Clear the line to make room for Claude
 					console.log();
 				}
 				await this.executeChildProcess(coreResult.command);
 			}
 			// Convert core result to CLI result with storage type
 			const result: StartCommandResult = {
 				...coreResult,
 				storageType: this.tmCore?.getStorageType()
 			};
 			// Store result for programmatic access
 			this.setLastResult(result);
 			// Display results (only for dry run or if execution failed)
 			if (options.dryRun || !coreResult.started) {
 				this.displayResults(result, options);
 			}
 		} catch (error: any) {
 			if (spinner) {
 				spinner.fail('Operation failed');
 			}
 			this.handleError(error);
 			process.exit(1);
 		}
 	}
 	/**
 	 * Validate command options
 	 */
 	private validateOptions(options: StartCommandOptions): boolean {
 		// Validate format
 		if (options.format && !['text', 'json'].includes(options.format)) {
 			console.error(chalk.red(`Invalid format: ${options.format}`));
 			console.error(chalk.gray(`Valid formats: text, json`));
 			return false;
 		}
 		return true;
 	}
 	/**
 	 * Initialize TaskMasterCore
 	 */
 	private async initializeCore(projectRoot: string): Promise<void> {
 		if (!this.tmCore) {
 			this.tmCore = await createTaskMasterCore({ projectPath: projectRoot });
 		}
 	}
 	/**
 	 * Get the next available task using tm-core
 	 */
 	private async performGetNextTask(): Promise<string | null> {
 		if (!this.tmCore) {
 			throw new Error('TaskMasterCore not initialized');
 		}
 		return this.tmCore.getNextAvailableTask();
 	}
 	/**
 	 * Show pre-launch message using tm-core data
 	 */
 	private async showPreLaunchMessage(targetTaskId: string): Promise<void> {
 		if (!this.tmCore) return;
 		const { task, subtask, subtaskId } =
 			await this.tmCore.getTaskWithSubtask(targetTaskId);
 		if (task) {
 			const workItemText = subtask
 				? `Subtask #${task.id}.${subtaskId} - ${subtask.title}`
 				: `Task #${task.id} - ${task.title}`;
 			console.log(
 				chalk.green('🚀 Starting: ') + chalk.white.bold(workItemText)
 			);
 			console.log(chalk.gray('Launching Claude Code...'));
 			console.log(); // Empty line
 		}
 	}
 	/**
 	 * Perform start task using tm-core business logic
 	 */
 	private async performStartTask(
 		targetTaskId: string,
 		options: StartCommandOptions
 	): Promise<CoreStartTaskResult> {
 		if (!this.tmCore) {
 			throw new Error('TaskMasterCore not initialized');
 		}
 		// Show spinner for status update if enabled
 		let statusSpinner: Ora | null = null;
 		if (!options.noStatusUpdate && !options.dryRun) {
 			statusSpinner = ora('Updating task status to in-progress...').start();
 		}
 		// Get execution command from tm-core (instead of executing directly)
 		const result = await this.tmCore.startTask(targetTaskId, {
 			dryRun: options.dryRun,
 			force: options.force,
 			updateStatus: !options.noStatusUpdate
 		});
 		if (statusSpinner) {
 			if (result.started) {
 				statusSpinner.succeed('Task status updated');
 			} else {
 				statusSpinner.warn('Task status update skipped');
 			}
 		}
 		if (!result) {
 			throw new Error('Failed to start task - core result is undefined');
 		}
 		// Don't execute here - let the main executeCommand method handle it
 		return result;
 	}
 	/**
 	 * Execute the child process directly in the main thread for better process control
 	 */
 	private async executeChildProcess(command: {
 		executable: string;
 		args: string[];
 		cwd: string;
 	}): Promise<void> {
 		return new Promise((resolve, reject) => {
 			// Don't show the full command with args as it can be very long
 			console.log(chalk.green('🚀 Launching Claude Code...'));
 			console.log(); // Add space before Claude takes over
 			const childProcess = spawn(command.executable, command.args, {
 				cwd: command.cwd,
 				stdio: 'inherit', // Inherit stdio from parent process
 				shell: false
 			});
 			childProcess.on('close', (code) => {
 				if (code === 0) {
 					resolve();
 				} else {
 					reject(new Error(`Process exited with code ${code}`));
 				}
 			});
 			childProcess.on('error', (error) => {
 				reject(new Error(`Failed to spawn process: ${error.message}`));
 			});
 			// Handle process termination signals gracefully
 			const cleanup = () => {
 				if (childProcess && !childProcess.killed) {
 					childProcess.kill('SIGTERM');
 				}
 			};
 			process.on('SIGINT', cleanup);
 			process.on('SIGTERM', cleanup);
 			process.on('exit', cleanup);
 		});
 	}
 	/**
 	 * Display results based on format
 	 */
 	private displayResults(
 		result: StartCommandResult,
 		options: StartCommandOptions
 	): void {
 		const format = options.format || 'text';
 		switch (format) {
 			case 'json':
 				this.displayJson(result);
 				break;
 			case 'text':
 			default:
 				this.displayTextResult(result, options);
 				break;
 		}
 	}
 	/**
 	 * Display in JSON format
 	 */
 	private displayJson(result: StartCommandResult): void {
 		console.log(JSON.stringify(result, null, 2));
 	}
 	/**
 	 * Display result in text format
 	 */
 	private displayTextResult(
 		result: StartCommandResult,
 		options: StartCommandOptions
 	): void {
 		if (!result.found || !result.task) {
 			console.log(
 				boxen(chalk.yellow(`Task not found!`), {
 					padding: { top: 0, bottom: 0, left: 1, right: 1 },
 					borderColor: 'yellow',
 					borderStyle: 'round',
 					margin: { top: 1 }
 				})
 			);
 			return;
 		}
 		const task = result.task;
 		if (options.dryRun) {
 			// For dry run, show full details since Claude Code won't be launched
 			let headerText = `Dry Run: Starting Task #${task.id} - ${task.title}`;
 			// If working on a specific subtask, highlight it in the header
 			if (result.subtask && result.subtaskId) {
 				headerText = `Dry Run: Starting Subtask #${task.id}.${result.subtaskId} - ${result.subtask.title}`;
 			}
 			displayTaskDetails(task, {
 				customHeader: headerText,
 				headerColor: 'yellow'
 			});
 			// Show claude-code prompt
 			if (result.executionOutput) {
 				console.log(); // Empty line for spacing
 				console.log(
 					boxen(
 						chalk.white.bold('Claude-Code Prompt:') +
 							'\n\n' +
 							result.executionOutput,
 						{
 							padding: 1,
 							borderStyle: 'round',
 							borderColor: 'cyan',
 							width: process.stdout.columns * 0.95 || 100
 						}
 					)
 				);
 			}
 			console.log(); // Empty line for spacing
 			console.log(
 				boxen(
 					chalk.yellow(
 						'🔍 Dry run - claude-code would be launched with the above prompt'
 					),
 					{
 						padding: { top: 0, bottom: 0, left: 1, right: 1 },
 						borderColor: 'yellow',
 						borderStyle: 'round'
 					}
 				)
 			);
 		} else {
 			// For actual execution, show minimal info since Claude Code will clear the terminal
 			if (result.started) {
 				// Determine what was worked on - task or subtask
 				let workItemText = `Task: #${task.id} - ${task.title}`;
 				let statusTarget = task.id;
 				if (result.subtask && result.subtaskId) {
 					workItemText = `Subtask: #${task.id}.${result.subtaskId} - ${result.subtask.title}`;
 					statusTarget = `${task.id}.${result.subtaskId}`;
 				}
 				// Post-execution message (shown after Claude Code exits)
 				console.log(
 					boxen(
 						chalk.green.bold('🎉 Task Session Complete!') +
 							'\n\n' +
 							chalk.white(workItemText) +
 							'\n\n' +
 							chalk.cyan('Next steps:') +
 							'\n' +
 							`• Run ${chalk.yellow('tm show ' + task.id)} to review task details\n` +
 							`• Run ${chalk.yellow('tm set-status --id=' + statusTarget + ' --status=done')} when complete\n` +
 							`• Run ${chalk.yellow('tm next')} to find the next available task\n` +
 							`• Run ${chalk.yellow('tm start')} to begin the next task`,
 						{
 							padding: 1,
 							borderStyle: 'round',
 							borderColor: 'green',
 							width: process.stdout.columns * 0.95 || 100,
 							margin: { top: 1 }
 						}
 					)
 				);
 			} else {
 				// Error case
 				console.log(
 					boxen(
 						chalk.red(
 							'❌ Failed to launch claude-code' +
 								(result.error ? `\nError: ${result.error}` : '')
 						),
 						{
 							padding: { top: 0, bottom: 0, left: 1, right: 1 },
 							borderColor: 'red',
 							borderStyle: 'round'
 						}
 					)
 				);
 			}
 		}
 		console.log(`\n${chalk.gray('Storage: ' + result.storageType)}`);
 	}
 	/**
 	 * Handle general errors
 	 */
 	private handleError(error: any): void {
 		const msg = error?.getSanitizedDetails?.() ?? {
 			message: error?.message ?? String(error)
 		};
 		console.error(chalk.red(`Error: ${msg.message || 'Unexpected error'}`));
 		// Show stack trace in development mode or when DEBUG is set
 		const isDevelopment = process.env.NODE_ENV !== 'production';
 		if ((isDevelopment || process.env.DEBUG) && error.stack) {
 			console.error(chalk.gray(error.stack));
 		}
 	}
 	/**
 	 * Set the last result for programmatic access
 	 */
 	private setLastResult(result: StartCommandResult): void {
 		this.lastResult = result;
 	}
 	/**
 	 * Get the last result (for programmatic usage)
 	 */
 	getLastResult(): StartCommandResult | undefined {
 		return this.lastResult;
 	}
 	/**
 	 * Clean up resources
 	 */
 	async cleanup(): Promise<void> {
 		if (this.tmCore) {
 			await this.tmCore.close();
 			this.tmCore = undefined;
 		}
 	}
 	/**
 	 * Static method to register this command on an existing program
 	 */
 	static registerOn(program: Command): Command {
 		const startCommand = new StartCommand();
 		program.addCommand(startCommand);
 		return startCommand;
 	}
 	/**
 	 * Alternative registration that returns the command for chaining
 	 */
 	static register(program: Command, name?: string): StartCommand {
 		const startCommand = new StartCommand(name);
 		program.addCommand(startCommand);
 		return startCommand;
 	}
 }
--- a/apps/cli/src/index.ts
+++ b/apps/cli/src/index.ts
@@ -0,0 +1,30 @@
 /**
 * @fileoverview Main entry point for @tm/cli package
 * Exports all public APIs for the CLI presentation layer
 */
 // Commands
 export { ListTasksCommand } from './commands/list.command.js';
 export { ShowCommand } from './commands/show.command.js';
 export { AuthCommand } from './commands/auth.command.js';
 export { ContextCommand } from './commands/context.command.js';
 export { StartCommand } from './commands/start.command.js';
 export { SetStatusCommand } from './commands/set-status.command.js';
 // UI utilities (for other commands to use)
 export * as ui from './utils/ui.js';
 // Auto-update utilities
 export {
 	checkForUpdate,
 	performAutoUpdate,
 	displayUpgradeNotification
 } from './utils/auto-update.js';
 // Re-export commonly used types from tm-core
 export type {
 	Task,
 	TaskStatus,
 	TaskPriority,
 	TaskMasterCore
 } from '@tm/core';
--- a/apps/cli/src/ui/components/dashboard.component.ts
+++ b/apps/cli/src/ui/components/dashboard.component.ts
@@ -0,0 +1,567 @@
 /**
 * @fileoverview Dashboard components for Task Master CLI
 * Displays project statistics and dependency information
 */
 import chalk from 'chalk';
 import boxen from 'boxen';
 import type { Task, TaskPriority } from '@tm/core/types';
 /**
 * Statistics for task collection
 */
 export interface TaskStatistics {
 	total: number;
 	done: number;
 	inProgress: number;
 	pending: number;
 	blocked: number;
 	deferred: number;
 	cancelled: number;
 	review?: number;
 	completionPercentage: number;
 }
 /**
 * Statistics for dependencies
 */
 export interface DependencyStatistics {
 	tasksWithNoDeps: number;
 	tasksReadyToWork: number;
 	tasksBlockedByDeps: number;
 	mostDependedOnTaskId?: number;
 	mostDependedOnCount?: number;
 	avgDependenciesPerTask: number;
 }
 /**
 * Next task information
 */
 export interface NextTaskInfo {
 	id: string | number;
 	title: string;
 	priority?: TaskPriority;
 	dependencies?: (string | number)[];
 	complexity?: number | string;
 }
 /**
 * Status breakdown for progress bars
 */
 export interface StatusBreakdown {
 	'in-progress'?: number;
 	pending?: number;
 	blocked?: number;
 	deferred?: number;
 	cancelled?: number;
 	review?: number;
 }
 /**
 * Create a progress bar with color-coded status segments
 */
 function createProgressBar(
 	completionPercentage: number,
 	width: number = 30,
 	statusBreakdown?: StatusBreakdown
 ): string {
 	// If no breakdown provided, use simple green bar
 	if (!statusBreakdown) {
 		const filled = Math.round((completionPercentage / 100) * width);
 		const empty = width - filled;
 		return chalk.green('█').repeat(filled) + chalk.gray('░').repeat(empty);
 	}
 	// Build the bar with different colored sections
 	// Order matches the status display: Done, Cancelled, Deferred, In Progress, Review, Pending, Blocked
 	let bar = '';
 	let charsUsed = 0;
 	// 1. Green filled blocks for completed tasks (done)
 	const completedChars = Math.round((completionPercentage / 100) * width);
 	if (completedChars > 0) {
 		bar += chalk.green('█').repeat(completedChars);
 		charsUsed += completedChars;
 	}
 	// 2. Gray filled blocks for cancelled (won't be done)
 	if (statusBreakdown.cancelled && charsUsed < width) {
 		const cancelledChars = Math.round(
 			(statusBreakdown.cancelled / 100) * width
 		);
 		const actualChars = Math.min(cancelledChars, width - charsUsed);
 		if (actualChars > 0) {
 			bar += chalk.gray('█').repeat(actualChars);
 			charsUsed += actualChars;
 		}
 	}
 	// 3. Gray filled blocks for deferred (won't be done now)
 	if (statusBreakdown.deferred && charsUsed < width) {
 		const deferredChars = Math.round((statusBreakdown.deferred / 100) * width);
 		const actualChars = Math.min(deferredChars, width - charsUsed);
 		if (actualChars > 0) {
 			bar += chalk.gray('█').repeat(actualChars);
 			charsUsed += actualChars;
 		}
 	}
 	// 4. Blue filled blocks for in-progress (actively working)
 	if (statusBreakdown['in-progress'] && charsUsed < width) {
 		const inProgressChars = Math.round(
 			(statusBreakdown['in-progress'] / 100) * width
 		);
 		const actualChars = Math.min(inProgressChars, width - charsUsed);
 		if (actualChars > 0) {
 			bar += chalk.blue('█').repeat(actualChars);
 			charsUsed += actualChars;
 		}
 	}
 	// 5. Magenta empty blocks for review (almost done)
 	if (statusBreakdown.review && charsUsed < width) {
 		const reviewChars = Math.round((statusBreakdown.review / 100) * width);
 		const actualChars = Math.min(reviewChars, width - charsUsed);
 		if (actualChars > 0) {
 			bar += chalk.magenta('░').repeat(actualChars);
 			charsUsed += actualChars;
 		}
 	}
 	// 6. Yellow empty blocks for pending (ready to start)
 	if (statusBreakdown.pending && charsUsed < width) {
 		const pendingChars = Math.round((statusBreakdown.pending / 100) * width);
 		const actualChars = Math.min(pendingChars, width - charsUsed);
 		if (actualChars > 0) {
 			bar += chalk.yellow('░').repeat(actualChars);
 			charsUsed += actualChars;
 		}
 	}
 	// 7. Red empty blocks for blocked (can't start yet)
 	if (statusBreakdown.blocked && charsUsed < width) {
 		const blockedChars = Math.round((statusBreakdown.blocked / 100) * width);
 		const actualChars = Math.min(blockedChars, width - charsUsed);
 		if (actualChars > 0) {
 			bar += chalk.red('░').repeat(actualChars);
 			charsUsed += actualChars;
 		}
 	}
 	// Fill any remaining space with gray empty yellow blocks
 	if (charsUsed < width) {
 		bar += chalk.yellow('░').repeat(width - charsUsed);
 	}
 	return bar;
 }
 /**
 * Calculate task statistics from a list of tasks
 */
 export function calculateTaskStatistics(tasks: Task[]): TaskStatistics {
 	const stats: TaskStatistics = {
 		total: tasks.length,
 		done: 0,
 		inProgress: 0,
 		pending: 0,
 		blocked: 0,
 		deferred: 0,
 		cancelled: 0,
 		review: 0,
 		completionPercentage: 0
 	};
 	tasks.forEach((task) => {
 		switch (task.status) {
 			case 'done':
 				stats.done++;
 				break;
 			case 'in-progress':
 				stats.inProgress++;
 				break;
 			case 'pending':
 				stats.pending++;
 				break;
 			case 'blocked':
 				stats.blocked++;
 				break;
 			case 'deferred':
 				stats.deferred++;
 				break;
 			case 'cancelled':
 				stats.cancelled++;
 				break;
 			case 'review':
 				stats.review = (stats.review || 0) + 1;
 				break;
 		}
 	});
 	stats.completionPercentage =
 		stats.total > 0 ? Math.round((stats.done / stats.total) * 100) : 0;
 	return stats;
 }
 /**
 * Calculate subtask statistics from tasks
 */
 export function calculateSubtaskStatistics(tasks: Task[]): TaskStatistics {
 	const stats: TaskStatistics = {
 		total: 0,
 		done: 0,
 		inProgress: 0,
 		pending: 0,
 		blocked: 0,
 		deferred: 0,
 		cancelled: 0,
 		review: 0,
 		completionPercentage: 0
 	};
 	tasks.forEach((task) => {
 		if (task.subtasks && task.subtasks.length > 0) {
 			task.subtasks.forEach((subtask) => {
 				stats.total++;
 				switch (subtask.status) {
 					case 'done':
 						stats.done++;
 						break;
 					case 'in-progress':
 						stats.inProgress++;
 						break;
 					case 'pending':
 						stats.pending++;
 						break;
 					case 'blocked':
 						stats.blocked++;
 						break;
 					case 'deferred':
 						stats.deferred++;
 						break;
 					case 'cancelled':
 						stats.cancelled++;
 						break;
 					case 'review':
 						stats.review = (stats.review || 0) + 1;
 						break;
 				}
 			});
 		}
 	});
 	stats.completionPercentage =
 		stats.total > 0 ? Math.round((stats.done / stats.total) * 100) : 0;
 	return stats;
 }
 /**
 * Calculate dependency statistics
 */
 export function calculateDependencyStatistics(
 	tasks: Task[]
 ): DependencyStatistics {
 	const completedTaskIds = new Set(
 		tasks.filter((t) => t.status === 'done').map((t) => t.id)
 	);
 	const tasksWithNoDeps = tasks.filter(
 		(t) =>
 			t.status !== 'done' && (!t.dependencies || t.dependencies.length === 0)
 	).length;
 	const tasksWithAllDepsSatisfied = tasks.filter(
 		(t) =>
 			t.status !== 'done' &&
 			t.dependencies &&
 			t.dependencies.length > 0 &&
 			t.dependencies.every((depId) => completedTaskIds.has(depId))
 	).length;
 	const tasksBlockedByDeps = tasks.filter(
 		(t) =>
 			t.status !== 'done' &&
 			t.dependencies &&
 			t.dependencies.length > 0 &&
 			!t.dependencies.every((depId) => completedTaskIds.has(depId))
 	).length;
 	// Calculate most depended-on task
 	const dependencyCount: Record<string, number> = {};
 	tasks.forEach((task) => {
 		if (task.dependencies && task.dependencies.length > 0) {
 			task.dependencies.forEach((depId) => {
 				const key = String(depId);
 				dependencyCount[key] = (dependencyCount[key] || 0) + 1;
 			});
 		}
 	});
 	let mostDependedOnTaskId: number | undefined;
 	let mostDependedOnCount = 0;
 	for (const [taskId, count] of Object.entries(dependencyCount)) {
 		if (count > mostDependedOnCount) {
 			mostDependedOnCount = count;
 			mostDependedOnTaskId = parseInt(taskId);
 		}
 	}
 	// Calculate average dependencies
 	const totalDependencies = tasks.reduce(
 		(sum, task) => sum + (task.dependencies ? task.dependencies.length : 0),
 		0
 	);
 	const avgDependenciesPerTask =
 		tasks.length > 0 ? totalDependencies / tasks.length : 0;
 	return {
 		tasksWithNoDeps,
 		tasksReadyToWork: tasksWithNoDeps + tasksWithAllDepsSatisfied,
 		tasksBlockedByDeps,
 		mostDependedOnTaskId,
 		mostDependedOnCount,
 		avgDependenciesPerTask
 	};
 }
 /**
 * Get priority counts
 */
 export function getPriorityBreakdown(
 	tasks: Task[]
 ): Record<TaskPriority, number> {
 	const breakdown: Record<TaskPriority, number> = {
 		critical: 0,
 		high: 0,
 		medium: 0,
 		low: 0
 	};
 	tasks.forEach((task) => {
 		const priority = task.priority || 'medium';
 		breakdown[priority]++;
 	});
 	return breakdown;
 }
 /**
 * Calculate status breakdown as percentages
 */
 function calculateStatusBreakdown(stats: TaskStatistics): StatusBreakdown {
 	if (stats.total === 0) return {};
 	return {
 		'in-progress': (stats.inProgress / stats.total) * 100,
 		pending: (stats.pending / stats.total) * 100,
 		blocked: (stats.blocked / stats.total) * 100,
 		deferred: (stats.deferred / stats.total) * 100,
 		cancelled: (stats.cancelled / stats.total) * 100,
 		review: ((stats.review || 0) / stats.total) * 100
 	};
 }
 /**
 * Format status counts in the correct order with colors
 * @param stats - The statistics object containing counts
 * @param isSubtask - Whether this is for subtasks (affects "Done" vs "Completed" label)
 */
 function formatStatusLine(
 	stats: TaskStatistics,
 	isSubtask: boolean = false
 ): string {
 	const parts: string[] = [];
 	// Order: Done, Cancelled, Deferred, In Progress, Review, Pending, Blocked
 	if (isSubtask) {
 		parts.push(`Completed: ${chalk.green(`${stats.done}/${stats.total}`)}`);
 	} else {
 		parts.push(`Done: ${chalk.green(stats.done)}`);
 	}
 	parts.push(`Cancelled: ${chalk.gray(stats.cancelled)}`);
 	parts.push(`Deferred: ${chalk.gray(stats.deferred)}`);
 	// Add line break for second row
 	const firstLine = parts.join('  ');
 	parts.length = 0;
 	parts.push(`In Progress: ${chalk.blue(stats.inProgress)}`);
 	parts.push(`Review: ${chalk.magenta(stats.review || 0)}`);
 	parts.push(`Pending: ${chalk.yellow(stats.pending)}`);
 	parts.push(`Blocked: ${chalk.red(stats.blocked)}`);
 	const secondLine = parts.join('  ');
 	return firstLine + '\n' + secondLine;
 }
 /**
 * Display the project dashboard box
 */
 export function displayProjectDashboard(
 	taskStats: TaskStatistics,
 	subtaskStats: TaskStatistics,
 	priorityBreakdown: Record<TaskPriority, number>
 ): string {
 	// Calculate status breakdowns using the helper function
 	const taskStatusBreakdown = calculateStatusBreakdown(taskStats);
 	const subtaskStatusBreakdown = calculateStatusBreakdown(subtaskStats);
 	// Create progress bars with the breakdowns
 	const taskProgressBar = createProgressBar(
 		taskStats.completionPercentage,
 		30,
 		taskStatusBreakdown
 	);
 	const subtaskProgressBar = createProgressBar(
 		subtaskStats.completionPercentage,
 		30,
 		subtaskStatusBreakdown
 	);
 	const taskPercentage = `${taskStats.completionPercentage}% ${taskStats.done}/${taskStats.total}`;
 	const subtaskPercentage = `${subtaskStats.completionPercentage}% ${subtaskStats.done}/${subtaskStats.total}`;
 	const content =
 		chalk.white.bold('Project Dashboard') +
 		'\n' +
 		`Tasks Progress: ${taskProgressBar} ${chalk.yellow(taskPercentage)}\n` +
 		formatStatusLine(taskStats, false) +
 		'\n\n' +
 		`Subtasks Progress: ${subtaskProgressBar} ${chalk.cyan(subtaskPercentage)}\n` +
 		formatStatusLine(subtaskStats, true) +
 		'\n\n' +
 		chalk.cyan.bold('Priority Breakdown:') +
 		'\n' +
 		`${chalk.red('•')} ${chalk.white('High priority:')} ${priorityBreakdown.high}\n` +
 		`${chalk.yellow('•')} ${chalk.white('Medium priority:')} ${priorityBreakdown.medium}\n` +
 		`${chalk.green('•')} ${chalk.white('Low priority:')} ${priorityBreakdown.low}`;
 	return content;
 }
 /**
 * Display the dependency dashboard box
 */
 export function displayDependencyDashboard(
 	depStats: DependencyStatistics,
 	nextTask?: NextTaskInfo
 ): string {
 	const content =
 		chalk.white.bold('Dependency Status & Next Task') +
 		'\n' +
 		chalk.cyan.bold('Dependency Metrics:') +
 		'\n' +
 		`${chalk.green('•')} ${chalk.white('Tasks with no dependencies:')} ${depStats.tasksWithNoDeps}\n` +
 		`${chalk.green('•')} ${chalk.white('Tasks ready to work on:')} ${depStats.tasksReadyToWork}\n` +
 		`${chalk.yellow('•')} ${chalk.white('Tasks blocked by dependencies:')} ${depStats.tasksBlockedByDeps}\n` +
 		`${chalk.magenta('•')} ${chalk.white('Most depended-on task:')} ${
 			depStats.mostDependedOnTaskId
 				? chalk.cyan(
 						`#${depStats.mostDependedOnTaskId} (${depStats.mostDependedOnCount} dependents)`
 					)
 				: chalk.gray('None')
 		}\n` +
 		`${chalk.blue('•')} ${chalk.white('Avg dependencies per task:')} ${depStats.avgDependenciesPerTask.toFixed(1)}\n\n` +
 		chalk.cyan.bold('Next Task to Work On:') +
 		'\n' +
 		`ID: ${nextTask ? chalk.cyan(String(nextTask.id)) : chalk.gray('N/A')} - ${
 			nextTask
 				? chalk.white.bold(nextTask.title)
 				: chalk.yellow('No task available')
 		}\n` +
 		`Priority: ${nextTask?.priority || chalk.gray('N/A')}  Dependencies: ${
 			nextTask?.dependencies?.length
 				? chalk.cyan(nextTask.dependencies.join(', '))
 				: chalk.gray('None')
 		}\n` +
 		`Complexity: ${nextTask?.complexity || chalk.gray('N/A')}`;
 	return content;
 }
 /**
 * Display dashboard boxes side by side or stacked
 */
 export function displayDashboards(
 	taskStats: TaskStatistics,
 	subtaskStats: TaskStatistics,
 	priorityBreakdown: Record<TaskPriority, number>,
 	depStats: DependencyStatistics,
 	nextTask?: NextTaskInfo
 ): void {
 	const projectDashboardContent = displayProjectDashboard(
 		taskStats,
 		subtaskStats,
 		priorityBreakdown
 	);
 	const dependencyDashboardContent = displayDependencyDashboard(
 		depStats,
 		nextTask
 	);
 	// Get terminal width
 	const terminalWidth = process.stdout.columns || 80;
 	const minDashboardWidth = 50;
 	const minDependencyWidth = 50;
 	const totalMinWidth = minDashboardWidth + minDependencyWidth + 4;
 	// If terminal is wide enough, show side by side
 	if (terminalWidth >= totalMinWidth) {
 		const halfWidth = Math.floor(terminalWidth / 2);
 		const boxContentWidth = halfWidth - 4;
 		const dashboardBox = boxen(projectDashboardContent, {
 			padding: 1,
 			borderColor: 'blue',
 			borderStyle: 'round',
 			width: boxContentWidth,
 			dimBorder: false
 		});
 		const dependencyBox = boxen(dependencyDashboardContent, {
 			padding: 1,
 			borderColor: 'magenta',
 			borderStyle: 'round',
 			width: boxContentWidth,
 			dimBorder: false
 		});
 		// Create side-by-side layout
 		const dashboardLines = dashboardBox.split('\n');
 		const dependencyLines = dependencyBox.split('\n');
 		const maxHeight = Math.max(dashboardLines.length, dependencyLines.length);
 		const combinedLines = [];
 		for (let i = 0; i < maxHeight; i++) {
 			const dashLine = i < dashboardLines.length ? dashboardLines[i] : '';
 			const depLine = i < dependencyLines.length ? dependencyLines[i] : '';
 			const paddedDashLine = dashLine.padEnd(halfWidth, ' ');
 			combinedLines.push(paddedDashLine + depLine);
 		}
 		console.log(combinedLines.join('\n'));
 	} else {
 		// Show stacked vertically
 		const dashboardBox = boxen(projectDashboardContent, {
 			padding: 1,
 			borderColor: 'blue',
 			borderStyle: 'round',
 			margin: { top: 0, bottom: 1 }
 		});
 		const dependencyBox = boxen(dependencyDashboardContent, {
 			padding: 1,
 			borderColor: 'magenta',
 			borderStyle: 'round',
 			margin: { top: 0, bottom: 1 }
 		});
 		console.log(dashboardBox);
 		console.log(dependencyBox);
 	}
 }
--- a/apps/cli/src/ui/components/header.component.ts
+++ b/apps/cli/src/ui/components/header.component.ts
@@ -0,0 +1,45 @@
 /**
 * @fileoverview Task Master header component
 * Displays the banner, version, project info, and file path
 */
 import chalk from 'chalk';
 /**
 * Header configuration options
 */
 export interface HeaderOptions {
 	title?: string;
 	tag?: string;
 	filePath?: string;
 }
 /**
 * Display the Task Master header with project info
 */
 export function displayHeader(options: HeaderOptions = {}): void {
 	const { filePath, tag } = options;
 	// Display tag and file path info
 	if (tag) {
 		let tagInfo = '';
 		if (tag && tag !== 'master') {
 			tagInfo = `🏷 tag: ${chalk.cyan(tag)}`;
 		} else {
 			tagInfo = `🏷 tag: ${chalk.cyan('master')}`;
 		}
 		console.log(tagInfo);
 		if (filePath) {
 			// Convert to absolute path if it's relative
 			const absolutePath = filePath.startsWith('/')
 				? filePath
 				: `${process.cwd()}/${filePath}`;
 			console.log(`Listing tasks from: ${chalk.dim(absolutePath)}`);
 		}
 		console.log(); // Empty line for spacing
 	}
 }
--- a/apps/cli/src/ui/components/index.ts
+++ b/apps/cli/src/ui/components/index.ts
@@ -0,0 +1,9 @@
 /**
 * @fileoverview UI components exports
 */
 export * from './header.component.js';
 export * from './dashboard.component.js';
 export * from './next-task.component.js';
 export * from './suggested-steps.component.js';
 export * from './task-detail.component.js';
--- a/apps/cli/src/ui/components/next-task.component.ts
+++ b/apps/cli/src/ui/components/next-task.component.ts
@@ -0,0 +1,134 @@
 /**
 * @fileoverview Next task recommendation component
 * Displays detailed information about the recommended next task
 */
 import chalk from 'chalk';
 import boxen from 'boxen';
 import type { Task } from '@tm/core/types';
 /**
 * Next task display options
 */
 export interface NextTaskDisplayOptions {
 	id: string | number;
 	title: string;
 	priority?: string;
 	status?: string;
 	dependencies?: (string | number)[];
 	description?: string;
 }
 /**
 * Display the recommended next task section
 */
 export function displayRecommendedNextTask(
 	task: NextTaskDisplayOptions | undefined
 ): void {
 	if (!task) {
 		// If no task available, show a message
 		console.log(
 			boxen(
 				chalk.yellow(
 					'No tasks available to work on. All tasks are either completed, blocked by dependencies, or in progress.'
 				),
 				{
 					padding: 1,
 					borderStyle: 'round',
 					borderColor: 'yellow',
 					title: '⚠ NO TASKS AVAILABLE ⚠',
 					titleAlignment: 'center'
 				}
 			)
 		);
 		return;
 	}
 	// Build the content for the next task box
 	const content = [];
 	// Task header with ID and title
 	content.push(
 		`🔥 ${chalk.hex('#FF8800').bold('Next Task to Work On:')} ${chalk.yellow(`#${task.id}`)}${chalk.hex('#FF8800').bold(` - ${task.title}`)}`
 	);
 	content.push('');
 	// Priority and Status line
 	const statusLine = [];
 	if (task.priority) {
 		const priorityColor =
 			task.priority === 'high'
 				? chalk.red
 				: task.priority === 'medium'
 					? chalk.yellow
 					: chalk.gray;
 		statusLine.push(`Priority: ${priorityColor.bold(task.priority)}`);
 	}
 	if (task.status) {
 		const statusDisplay =
 			task.status === 'pending'
 				? chalk.yellow('○ pending')
 				: task.status === 'in-progress'
 					? chalk.blue('▶ in-progress')
 					: chalk.gray(task.status);
 		statusLine.push(`Status: ${statusDisplay}`);
 	}
 	content.push(statusLine.join('  '));
 	// Dependencies
 	const depsDisplay =
 		!task.dependencies || task.dependencies.length === 0
 			? chalk.gray('None')
 			: chalk.cyan(task.dependencies.join(', '));
 	content.push(`Dependencies: ${depsDisplay}`);
 	// Description if available
 	if (task.description) {
 		content.push('');
 		content.push(`Description: ${chalk.white(task.description)}`);
 	}
 	// Action commands
 	content.push('');
 	content.push(
 		`${chalk.cyan('Start working:')} ${chalk.yellow(`task-master set-status --id=${task.id} --status=in-progress`)}`
 	);
 	content.push(
 		`${chalk.cyan('View details:')} ${chalk.yellow(`task-master show ${task.id}`)}`
 	);
 	// Display in a styled box with orange border
 	console.log(
 		boxen(content.join('\n'), {
 			padding: 1,
 			margin: { top: 1, bottom: 1 },
 			borderStyle: 'round',
 			borderColor: '#FFA500', // Orange color
 			title: chalk.hex('#FFA500')('⚡ RECOMMENDED NEXT TASK ⚡'),
 			titleAlignment: 'center',
 			width: process.stdout.columns * 0.97,
 			fullscreen: false
 		})
 	);
 }
 /**
 * Get task description from the full task object
 */
 export function getTaskDescription(task: Task): string | undefined {
 	// Try to get description from the task
 	// This could be from task.description or the first line of task.details
 	if ('description' in task && task.description) {
 		return task.description as string;
 	}
 	if ('details' in task && task.details) {
 		// Take first sentence or line from details
 		const details = task.details as string;
 		const firstLine = details.split('\n')[0];
 		const firstSentence = firstLine.split('.')[0];
 		return firstSentence;
 	}
 	return undefined;
 }
--- a/apps/cli/src/ui/components/suggested-steps.component.ts
+++ b/apps/cli/src/ui/components/suggested-steps.component.ts
@@ -0,0 +1,31 @@
 /**
 * @fileoverview Suggested next steps component
 * Displays helpful command suggestions at the end of the list
 */
 import chalk from 'chalk';
 import boxen from 'boxen';
 /**
 * Display suggested next steps section
 */
 export function displaySuggestedNextSteps(): void {
 	const steps = [
 		`${chalk.cyan('1.')} Run ${chalk.yellow('task-master next')} to see what to work on next`,
 		`${chalk.cyan('2.')} Run ${chalk.yellow('task-master expand --id=<id>')} to break down a task into subtasks`,
 		`${chalk.cyan('3.')} Run ${chalk.yellow('task-master set-status --id=<id> --status=done')} to mark a task as complete`
 	];
 	console.log(
 		boxen(
 			chalk.white.bold('Suggested Next Steps:') + '\n\n' + steps.join('\n'),
 			{
 				padding: 1,
 				margin: { top: 0, bottom: 1 },
 				borderStyle: 'round',
 				borderColor: 'gray',
 				width: process.stdout.columns * 0.97
 			}
 		)
 	);
 }
--- a/apps/cli/src/ui/components/task-detail.component.ts
+++ b/apps/cli/src/ui/components/task-detail.component.ts
@@ -0,0 +1,335 @@
 /**
 * @fileoverview Task detail component for show command
 * Displays detailed task information in a structured format
 */
 import chalk from 'chalk';
 import boxen from 'boxen';
 import Table from 'cli-table3';
 import { marked, MarkedExtension } from 'marked';
 import { markedTerminal } from 'marked-terminal';
 import type { Task } from '@tm/core/types';
 import { getStatusWithColor, getPriorityWithColor } from '../../utils/ui.js';
 // Configure marked to use terminal renderer with subtle colors
 marked.use(
 	markedTerminal({
 		// More subtle colors that match the overall design
 		code: (code: string) => {
 			// Custom code block handler to preserve formatting
 			return code
 				.split('\n')
 				.map((line) => '    ' + chalk.cyan(line))
 				.join('\n');
 		},
 		blockquote: chalk.gray.italic,
 		html: chalk.gray,
 		heading: chalk.white.bold, // White bold for headings
 		hr: chalk.gray,
 		listitem: chalk.white, // White for list items
 		paragraph: chalk.white, // White for paragraphs (default text color)
 		strong: chalk.white.bold, // White bold for strong text
 		em: chalk.white.italic, // White italic for emphasis
 		codespan: chalk.cyan, // Cyan for inline code (no background)
 		del: chalk.dim.strikethrough,
 		link: chalk.blue,
 		href: chalk.blue.underline,
 		// Add more explicit code block handling
 		showSectionPrefix: false,
 		unescape: true,
 		emoji: false,
 		// Try to preserve whitespace in code blocks
 		tab: 4,
 		width: 120
 	}) as MarkedExtension
 );
 // Also set marked options to preserve whitespace
 marked.setOptions({
 	breaks: true,
 	gfm: true
 });
 /**
 * Display the task header with tag
 */
 export function displayTaskHeader(
 	taskId: string | number,
 	title: string
 ): void {
 	// Display task header box
 	console.log(
 		boxen(chalk.white.bold(`Task: #${taskId} - ${title}`), {
 			padding: { top: 0, bottom: 0, left: 1, right: 1 },
 			borderColor: 'blue',
 			borderStyle: 'round'
 		})
 	);
 }
 /**
 * Display task properties in a table format
 */
 export function displayTaskProperties(task: Task): void {
 	const terminalWidth = process.stdout.columns * 0.95 || 100;
 	// Create table for task properties - simple 2-column layout
 	const table = new Table({
 		head: [],
 		style: {
 			head: [],
 			border: ['grey']
 		},
 		colWidths: [
 			Math.floor(terminalWidth * 0.2),
 			Math.floor(terminalWidth * 0.8)
 		],
 		wordWrap: true
 	});
 	const deps =
 		task.dependencies && task.dependencies.length > 0
 			? task.dependencies.map((d) => String(d)).join(', ')
 			: 'None';
 	// Build the left column (labels) and right column (values)
 	const labels = [
 		chalk.cyan('ID:'),
 		chalk.cyan('Title:'),
 		chalk.cyan('Status:'),
 		chalk.cyan('Priority:'),
 		chalk.cyan('Dependencies:'),
 		chalk.cyan('Complexity:'),
 		chalk.cyan('Description:')
 	].join('\n');
 	const values = [
 		String(task.id),
 		task.title,
 		getStatusWithColor(task.status),
 		getPriorityWithColor(task.priority),
 		deps,
 		'N/A',
 		task.description || ''
 	].join('\n');
 	table.push([labels, values]);
 	console.log(table.toString());
 }
 /**
 * Display implementation details in a box
 */
 export function displayImplementationDetails(details: string): void {
 	// Handle all escaped characters properly
 	const cleanDetails = details
 		.replace(/\\n/g, '\n') // Convert \n to actual newlines
 		.replace(/\\t/g, '\t') // Convert \t to actual tabs
 		.replace(/\\"/g, '"') // Convert \" to actual quotes
 		.replace(/\\\\/g, '\\'); // Convert \\ to single backslash
 	const terminalWidth = process.stdout.columns * 0.95 || 100;
 	// Parse markdown to terminal-friendly format
 	const markdownResult = marked(cleanDetails);
 	const formattedDetails =
 		typeof markdownResult === 'string' ? markdownResult.trim() : cleanDetails; // Fallback to original if Promise
 	console.log(
 		boxen(
 			chalk.white.bold('Implementation Details:') + '\n\n' + formattedDetails,
 			{
 				padding: 1,
 				borderStyle: 'round',
 				borderColor: 'cyan', // Changed to cyan to match the original
 				width: terminalWidth // Fixed width to match the original
 			}
 		)
 	);
 }
 /**
 * Display test strategy in a box
 */
 export function displayTestStrategy(testStrategy: string): void {
 	// Handle all escaped characters properly (same as implementation details)
 	const cleanStrategy = testStrategy
 		.replace(/\\n/g, '\n') // Convert \n to actual newlines
 		.replace(/\\t/g, '\t') // Convert \t to actual tabs
 		.replace(/\\"/g, '"') // Convert \" to actual quotes
 		.replace(/\\\\/g, '\\'); // Convert \\ to single backslash
 	const terminalWidth = process.stdout.columns * 0.95 || 100;
 	// Parse markdown to terminal-friendly format (same as implementation details)
 	const markdownResult = marked(cleanStrategy);
 	const formattedStrategy =
 		typeof markdownResult === 'string' ? markdownResult.trim() : cleanStrategy; // Fallback to original if Promise
 	console.log(
 		boxen(chalk.white.bold('Test Strategy:') + '\n\n' + formattedStrategy, {
 			padding: 1,
 			borderStyle: 'round',
 			borderColor: 'cyan', // Changed to cyan to match implementation details
 			width: terminalWidth
 		})
 	);
 }
 /**
 * Display subtasks in a table format
 */
 export function displaySubtasks(
 	subtasks: Array<{
 		id: string | number;
 		title: string;
 		status: any;
 		description?: string;
 		dependencies?: string[];
 	}>,
 	parentId: string | number
 ): void {
 	const terminalWidth = process.stdout.columns * 0.95 || 100;
 	// Display subtasks header
 	console.log(
 		boxen(chalk.magenta.bold('Subtasks'), {
 			padding: { top: 0, bottom: 0, left: 1, right: 1 },
 			borderColor: 'magenta',
 			borderStyle: 'round',
 			margin: { top: 1, bottom: 0 }
 		})
 	);
 	// Create subtasks table
 	const table = new Table({
 		head: [
 			chalk.magenta.bold('ID'),
 			chalk.magenta.bold('Status'),
 			chalk.magenta.bold('Title'),
 			chalk.magenta.bold('Deps')
 		],
 		style: {
 			head: [],
 			border: ['grey']
 		},
 		colWidths: [
 			Math.floor(terminalWidth * 0.1),
 			Math.floor(terminalWidth * 0.15),
 			Math.floor(terminalWidth * 0.6),
 			Math.floor(terminalWidth * 0.15)
 		],
 		wordWrap: true
 	});
 	subtasks.forEach((subtask) => {
 		const subtaskId = `${parentId}.${subtask.id}`;
 		// Format dependencies
 		const deps =
 			subtask.dependencies && subtask.dependencies.length > 0
 				? subtask.dependencies.join(', ')
 				: 'None';
 		table.push([
 			subtaskId,
 			getStatusWithColor(subtask.status),
 			subtask.title,
 			deps
 		]);
 	});
 	console.log(table.toString());
 }
 /**
 * Display suggested actions
 */
 export function displaySuggestedActions(taskId: string | number): void {
 	console.log(
 		boxen(
 			chalk.white.bold('Suggested Actions:') +
 				'\n\n' +
 				`${chalk.cyan('1.')} Run ${chalk.yellow(`task-master set-status --id=${taskId} --status=in-progress`)} to start working\n` +
 				`${chalk.cyan('2.')} Run ${chalk.yellow(`task-master expand --id=${taskId}`)} to break down into subtasks\n` +
 				`${chalk.cyan('3.')} Run ${chalk.yellow(`task-master update-task --id=${taskId} --prompt="..."`)} to update details`,
 			{
 				padding: 1,
 				margin: { top: 1 },
 				borderStyle: 'round',
 				borderColor: 'green',
 				width: process.stdout.columns * 0.95 || 100
 			}
 		)
 	);
 }
 /**
 * Display complete task details - used by both show and start commands
 */
 export function displayTaskDetails(
 	task: Task,
 	options?: {
 		statusFilter?: string;
 		showSuggestedActions?: boolean;
 		customHeader?: string;
 		headerColor?: string;
 	}
 ): void {
 	const {
 		statusFilter,
 		showSuggestedActions = false,
 		customHeader,
 		headerColor = 'blue'
 	} = options || {};
 	// Display header - either custom or default
 	if (customHeader) {
 		console.log(
 			boxen(chalk.white.bold(customHeader), {
 				padding: { top: 0, bottom: 0, left: 1, right: 1 },
 				borderColor: headerColor,
 				borderStyle: 'round',
 				margin: { top: 1 }
 			})
 		);
 	} else {
 		displayTaskHeader(task.id, task.title);
 	}
 	// Display task properties in table format
 	displayTaskProperties(task);
 	// Display implementation details if available
 	if (task.details) {
 		console.log(); // Empty line for spacing
 		displayImplementationDetails(task.details);
 	}
 	// Display test strategy if available
 	if ('testStrategy' in task && task.testStrategy) {
 		console.log(); // Empty line for spacing
 		displayTestStrategy(task.testStrategy as string);
 	}
 	// Display subtasks if available
 	if (task.subtasks && task.subtasks.length > 0) {
 		// Filter subtasks by status if provided
 		const filteredSubtasks = statusFilter
 			? task.subtasks.filter((sub) => sub.status === statusFilter)
 			: task.subtasks;
 		if (filteredSubtasks.length === 0 && statusFilter) {
 			console.log(); // Empty line for spacing
 			console.log(chalk.gray(`  No subtasks with status '${statusFilter}'`));
 		} else if (filteredSubtasks.length > 0) {
 			console.log(); // Empty line for spacing
 			displaySubtasks(filteredSubtasks, task.id);
 		}
 	}
 	// Display suggested actions if requested
 	if (showSuggestedActions) {
 		console.log(); // Empty line for spacing
 		displaySuggestedActions(task.id);
 	}
 }
--- a/apps/cli/src/ui/index.ts
+++ b/apps/cli/src/ui/index.ts
@@ -0,0 +1,9 @@
 /**
 * @fileoverview Main UI exports
 */
 // Export all components
 export * from './components/index.js';
 // Re-export existing UI utilities
 export * from '../utils/ui.js';
--- a/apps/cli/src/utils/auto-update.ts
+++ b/apps/cli/src/utils/auto-update.ts
@@ -0,0 +1,238 @@
 /**
 * @fileoverview Auto-update utilities for task-master-ai CLI
 */
 import { spawn } from 'child_process';
 import https from 'https';
 import chalk from 'chalk';
 import ora from 'ora';
 import boxen from 'boxen';
 import packageJson from '../../../../package.json' with { type: 'json' };
 export interface UpdateInfo {
 	currentVersion: string;
 	latestVersion: string;
 	needsUpdate: boolean;
 }
 /**
 * Get current version from package.json
 */
 function getCurrentVersion(): string {
 	try {
 		return packageJson.version;
 	} catch (error) {
 		console.warn('Could not read package.json for version info');
 		return '0.0.0';
 	}
 }
 /**
 * Compare semantic versions with proper pre-release handling
 * @param v1 - First version
 * @param v2 - Second version
 * @returns -1 if v1 < v2, 0 if v1 = v2, 1 if v1 > v2
 */
 function compareVersions(v1: string, v2: string): number {
 	const toParts = (v: string) => {
 		const [core, pre = ''] = v.split('-', 2);
 		const nums = core.split('.').map((n) => Number.parseInt(n, 10) || 0);
 		return { nums, pre };
 	};
 	const a = toParts(v1);
 	const b = toParts(v2);
 	const len = Math.max(a.nums.length, b.nums.length);
 	// Compare numeric parts
 	for (let i = 0; i < len; i++) {
 		const d = (a.nums[i] || 0) - (b.nums[i] || 0);
 		if (d !== 0) return d < 0 ? -1 : 1;
 	}
 	// Handle pre-release comparison
 	if (a.pre && !b.pre) return -1; // prerelease < release
 	if (!a.pre && b.pre) return 1; // release > prerelease
 	if (a.pre === b.pre) return 0; // same or both empty
 	return a.pre < b.pre ? -1 : 1; // basic prerelease tie-break
 }
 /**
 * Check for newer version of task-master-ai
 */
 export async function checkForUpdate(
 	currentVersionOverride?: string
 ): Promise<UpdateInfo> {
 	const currentVersion = currentVersionOverride || getCurrentVersion();
 	return new Promise((resolve) => {
 		const options = {
 			hostname: 'registry.npmjs.org',
 			path: '/task-master-ai',
 			method: 'GET',
 			headers: {
 				Accept: 'application/vnd.npm.install-v1+json',
 				'User-Agent': `task-master-ai/${currentVersion}`
 			}
 		};
 		const req = https.request(options, (res) => {
 			let data = '';
 			res.on('data', (chunk) => {
 				data += chunk;
 			});
 			res.on('end', () => {
 				try {
 					if (res.statusCode !== 200)
 						throw new Error(`npm registry status ${res.statusCode}`);
 					const npmData = JSON.parse(data);
 					const latestVersion = npmData['dist-tags']?.latest || currentVersion;
 					const needsUpdate =
 						compareVersions(currentVersion, latestVersion) < 0;
 					resolve({
 						currentVersion,
 						latestVersion,
 						needsUpdate
 					});
 				} catch (error) {
 					resolve({
 						currentVersion,
 						latestVersion: currentVersion,
 						needsUpdate: false
 					});
 				}
 			});
 		});
 		req.on('error', () => {
 			resolve({
 				currentVersion,
 				latestVersion: currentVersion,
 				needsUpdate: false
 			});
 		});
 		req.setTimeout(3000, () => {
 			req.destroy();
 			resolve({
 				currentVersion,
 				latestVersion: currentVersion,
 				needsUpdate: false
 			});
 		});
 		req.end();
 	});
 }
 /**
 * Display upgrade notification message
 */
 export function displayUpgradeNotification(
 	currentVersion: string,
 	latestVersion: string
 ) {
 	const message = boxen(
 		`${chalk.blue.bold('Update Available!')} ${chalk.dim(currentVersion)} → ${chalk.green(latestVersion)}\n\n` +
 			`Auto-updating to the latest version with new features and bug fixes...`,
 		{
 			padding: 1,
 			margin: { top: 1, bottom: 1 },
 			borderColor: 'yellow',
 			borderStyle: 'round'
 		}
 	);
 	console.log(message);
 }
 /**
 * Automatically update task-master-ai to the latest version
 */
 export async function performAutoUpdate(
 	latestVersion: string
 ): Promise<boolean> {
 	if (process.env.TASKMASTER_SKIP_AUTO_UPDATE === '1' || process.env.CI) {
 		console.log(
 			chalk.dim('Skipping auto-update (TASKMASTER_SKIP_AUTO_UPDATE/CI).')
 		);
 		return false;
 	}
 	const spinner = ora({
 		text: chalk.blue(
 			`Updating task-master-ai to version ${chalk.green(latestVersion)}`
 		),
 		spinner: 'dots',
 		color: 'blue'
 	}).start();
 	return new Promise((resolve) => {
 		const updateProcess = spawn(
 			'npm',
 			[
 				'install',
 				'-g',
 				`task-master-ai@${latestVersion}`,
 				'--no-fund',
 				'--no-audit',
 				'--loglevel=warn'
 			],
 			{
 				stdio: ['ignore', 'pipe', 'pipe']
 			}
 		);
 		let errorOutput = '';
 		updateProcess.stdout.on('data', () => {
 			// Update spinner text with progress
 			spinner.text = chalk.blue(
 				`Installing task-master-ai@${latestVersion}...`
 			);
 		});
 		updateProcess.stderr.on('data', (data) => {
 			errorOutput += data.toString();
 		});
 		updateProcess.on('close', (code) => {
 			if (code === 0) {
 				spinner.succeed(
 					chalk.green(
 						`Successfully updated to version ${chalk.bold(latestVersion)}`
 					)
 				);
 				console.log(
 					chalk.dim('Please restart your command to use the new version.')
 				);
 				resolve(true);
 			} else {
 				spinner.fail(chalk.red('Auto-update failed'));
 				console.log(
 					chalk.cyan(
 						`Please run manually: npm install -g task-master-ai@${latestVersion}`
 					)
 				);
 				if (errorOutput) {
 					console.log(chalk.dim(`Error: ${errorOutput.trim()}`));
 				}
 				resolve(false);
 			}
 		});
 		updateProcess.on('error', (error) => {
 			spinner.fail(chalk.red('Auto-update failed'));
 			console.log(chalk.red('Error:'), error.message);
 			console.log(
 				chalk.cyan(
 					`Please run manually: npm install -g task-master-ai@${latestVersion}`
 				)
 			);
 			resolve(false);
 		});
 	});
 }
--- a/apps/cli/src/utils/ui.ts
+++ b/apps/cli/src/utils/ui.ts
@@ -0,0 +1,362 @@
 /**
 * @fileoverview UI utilities for Task Master CLI
 * Provides formatting, display, and visual components for the command line interface
 */
 import chalk from 'chalk';
 import boxen from 'boxen';
 import Table from 'cli-table3';
 import type { Task, TaskStatus, TaskPriority } from '@tm/core/types';
 /**
 * Get colored status display with ASCII icons (matches scripts/modules/ui.js style)
 */
 export function getStatusWithColor(
 	status: TaskStatus,
 	forTable: boolean = false
 ): string {
 	const statusConfig = {
 		done: {
 			color: chalk.green,
 			icon: '✓',
 			tableIcon: '✓'
 		},
 		pending: {
 			color: chalk.yellow,
 			icon: '○',
 			tableIcon: '○'
 		},
 		'in-progress': {
 			color: chalk.hex('#FFA500'),
 			icon: '▶',
 			tableIcon: '▶'
 		},
 		deferred: {
 			color: chalk.gray,
 			icon: 'x',
 			tableIcon: 'x'
 		},
 		review: {
 			color: chalk.magenta,
 			icon: '?',
 			tableIcon: '?'
 		},
 		cancelled: {
 			color: chalk.gray,
 			icon: 'x',
 			tableIcon: 'x'
 		},
 		blocked: {
 			color: chalk.red,
 			icon: '!',
 			tableIcon: '!'
 		},
 		completed: {
 			color: chalk.green,
 			icon: '✓',
 			tableIcon: '✓'
 		}
 	};
 	const config = statusConfig[status] || {
 		color: chalk.red,
 		icon: 'X',
 		tableIcon: 'X'
 	};
 	const icon = forTable ? config.tableIcon : config.icon;
 	return config.color(`${icon} ${status}`);
 }
 /**
 * Get colored priority display
 */
 export function getPriorityWithColor(priority: TaskPriority): string {
 	const priorityColors: Record<TaskPriority, (text: string) => string> = {
 		critical: chalk.red.bold,
 		high: chalk.red,
 		medium: chalk.yellow,
 		low: chalk.gray
 	};
 	const colorFn = priorityColors[priority] || chalk.white;
 	return colorFn(priority);
 }
 /**
 * Get colored complexity display
 */
 export function getComplexityWithColor(complexity: number | string): string {
 	const score =
 		typeof complexity === 'string' ? parseInt(complexity, 10) : complexity;
 	if (isNaN(score)) {
 		return chalk.gray('N/A');
 	}
 	if (score >= 8) {
 		return chalk.red.bold(`${score} (High)`);
 	} else if (score >= 5) {
 		return chalk.yellow(`${score} (Medium)`);
 	} else {
 		return chalk.green(`${score} (Low)`);
 	}
 }
 /**
 * Truncate text to specified length
 */
 export function truncate(text: string, maxLength: number): string {
 	if (text.length <= maxLength) {
 		return text;
 	}
 	return text.substring(0, maxLength - 3) + '...';
 }
 /**
 * Create a progress bar
 */
 export function createProgressBar(
 	completed: number,
 	total: number,
 	width: number = 30
 ): string {
 	if (total === 0) {
 		return chalk.gray('No tasks');
 	}
 	const percentage = Math.round((completed / total) * 100);
 	const filled = Math.round((completed / total) * width);
 	const empty = width - filled;
 	const bar = chalk.green('█').repeat(filled) + chalk.gray('░').repeat(empty);
 	return `${bar} ${chalk.cyan(`${percentage}%`)} (${completed}/${total})`;
 }
 /**
 * Display a fancy banner
 */
 export function displayBanner(title: string = 'Task Master'): void {
 	console.log(
 		boxen(chalk.white.bold(title), {
 			padding: 1,
 			margin: { top: 1, bottom: 1 },
 			borderStyle: 'round',
 			borderColor: 'blue',
 			textAlignment: 'center'
 		})
 	);
 }
 /**
 * Display an error message (matches scripts/modules/ui.js style)
 */
 export function displayError(message: string, details?: string): void {
 	console.error(
 		boxen(
 			chalk.red.bold('X Error: ') +
 				chalk.white(message) +
 				(details ? '\n\n' + chalk.gray(details) : ''),
 			{
 				padding: 1,
 				borderStyle: 'round',
 				borderColor: 'red'
 			}
 		)
 	);
 }
 /**
 * Display a success message
 */
 export function displaySuccess(message: string): void {
 	console.log(
 		boxen(
 			chalk.green.bold(String.fromCharCode(8730) + ' ') + chalk.white(message),
 			{
 				padding: 1,
 				borderStyle: 'round',
 				borderColor: 'green'
 			}
 		)
 	);
 }
 /**
 * Display a warning message
 */
 export function displayWarning(message: string): void {
 	console.log(
 		boxen(chalk.yellow.bold('⚠ ') + chalk.white(message), {
 			padding: 1,
 			borderStyle: 'round',
 			borderColor: 'yellow'
 		})
 	);
 }
 /**
 * Display info message
 */
 export function displayInfo(message: string): void {
 	console.log(
 		boxen(chalk.blue.bold('i ') + chalk.white(message), {
 			padding: 1,
 			borderStyle: 'round',
 			borderColor: 'blue'
 		})
 	);
 }
 /**
 * Format dependencies with their status
 */
 export function formatDependenciesWithStatus(
 	dependencies: string[] | number[],
 	tasks: Task[]
 ): string {
 	if (!dependencies || dependencies.length === 0) {
 		return chalk.gray('none');
 	}
 	const taskMap = new Map(tasks.map((t) => [t.id.toString(), t]));
 	return dependencies
 		.map((depId) => {
 			const task = taskMap.get(depId.toString());
 			if (!task) {
 				return chalk.red(`${depId} (not found)`);
 			}
 			const statusIcon =
 				task.status === 'done'
 					? '✓'
 					: task.status === 'in-progress'
 						? '►'
 						: '○';
 			return `${depId}${statusIcon}`;
 		})
 		.join(', ');
 }
 /**
 * Create a task table for display
 */
 export function createTaskTable(
 	tasks: Task[],
 	options?: {
 		showSubtasks?: boolean;
 		showComplexity?: boolean;
 		showDependencies?: boolean;
 	}
 ): string {
 	const {
 		showSubtasks = false,
 		showComplexity = false,
 		showDependencies = true
 	} = options || {};
 	// Calculate dynamic column widths based on terminal width
 	const terminalWidth = process.stdout.columns * 0.9 || 100;
 	// Adjust column widths to better match the original layout
 	const baseColWidths = showComplexity
 		? [
 				Math.floor(terminalWidth * 0.06),
 				Math.floor(terminalWidth * 0.4),
 				Math.floor(terminalWidth * 0.15),
 				Math.floor(terminalWidth * 0.12),
 				Math.floor(terminalWidth * 0.2),
 				Math.floor(terminalWidth * 0.12)
 			] // ID, Title, Status, Priority, Dependencies, Complexity
 		: [
 				Math.floor(terminalWidth * 0.08),
 				Math.floor(terminalWidth * 0.4),
 				Math.floor(terminalWidth * 0.18),
 				Math.floor(terminalWidth * 0.12),
 				Math.floor(terminalWidth * 0.2)
 			]; // ID, Title, Status, Priority, Dependencies
 	const headers = [
 		chalk.blue.bold('ID'),
 		chalk.blue.bold('Title'),
 		chalk.blue.bold('Status'),
 		chalk.blue.bold('Priority')
 	];
 	const colWidths = baseColWidths.slice(0, 4);
 	if (showDependencies) {
 		headers.push(chalk.blue.bold('Dependencies'));
 		colWidths.push(baseColWidths[4]);
 	}
 	if (showComplexity) {
 		headers.push(chalk.blue.bold('Complexity'));
 		colWidths.push(baseColWidths[5] || 12);
 	}
 	const table = new Table({
 		head: headers,
 		style: { head: [], border: [] },
 		colWidths,
 		wordWrap: true
 	});
 	tasks.forEach((task) => {
 		const row: string[] = [
 			chalk.cyan(task.id.toString()),
 			truncate(task.title, colWidths[1] - 3),
 			getStatusWithColor(task.status, true), // Use table version
 			getPriorityWithColor(task.priority)
 		];
 		if (showDependencies) {
 			// For table display, show simple format without status icons
 			if (!task.dependencies || task.dependencies.length === 0) {
 				row.push(chalk.gray('None'));
 			} else {
 				row.push(
 					chalk.cyan(task.dependencies.map((d) => String(d)).join(', '))
 				);
 			}
 		}
 		if (showComplexity) {
 			// Show N/A if no complexity score
 			row.push(chalk.gray('N/A'));
 		}
 		table.push(row);
 		// Add subtasks if requested
 		if (showSubtasks && task.subtasks && task.subtasks.length > 0) {
 			task.subtasks.forEach((subtask) => {
 				const subRow: string[] = [
 					chalk.gray(` └─ ${subtask.id}`),
 					chalk.gray(truncate(subtask.title, colWidths[1] - 6)),
 					chalk.gray(getStatusWithColor(subtask.status, true)),
 					chalk.gray(subtask.priority || 'medium')
 				];
 				if (showDependencies) {
 					subRow.push(
 						chalk.gray(
 							subtask.dependencies && subtask.dependencies.length > 0
 								? subtask.dependencies.map((dep) => String(dep)).join(', ')
 								: 'None'
 						)
 					);
 				}
 				if (showComplexity) {
 					subRow.push(chalk.gray('--'));
 				}
 				table.push(subRow);
 			});
 		}
 	});
 	return table.toString();
 }
--- a/apps/cli/tsconfig.json
+++ b/apps/cli/tsconfig.json
@@ -0,0 +1,36 @@
 {
 	"compilerOptions": {
 		"target": "ES2022",
 		"module": "NodeNext",
 		"lib": ["ES2022"],
 		"declaration": true,
 		"declarationMap": true,
 		"sourceMap": true,
 		"outDir": "./dist",
 		"baseUrl": ".",
 		"rootDir": "./src",
 		"strict": true,
 		"noImplicitAny": true,
 		"strictNullChecks": true,
 		"strictFunctionTypes": true,
 		"strictBindCallApply": true,
 		"strictPropertyInitialization": true,
 		"noImplicitThis": true,
 		"alwaysStrict": true,
 		"noUnusedLocals": true,
 		"noUnusedParameters": true,
 		"noImplicitReturns": true,
 		"noFallthroughCasesInSwitch": true,
 		"esModuleInterop": true,
 		"skipLibCheck": true,
 		"forceConsistentCasingInFileNames": true,
 		"moduleResolution": "NodeNext",
 		"moduleDetection": "force",
 		"types": ["node"],
 		"resolveJsonModule": true,
 		"isolatedModules": true,
 		"allowImportingTsExtensions": false
 	},
 	"include": ["src/**/*"],
 	"exclude": ["node_modules", "dist", "tests", "**/*.test.ts", "**/*.spec.ts"]
 }
--- a/apps/docs/CHANGELOG.md
+++ b/apps/docs/CHANGELOG.md
@@ -0,0 +1,5 @@
 # docs
 ## 0.0.2
 ## 0.0.1
--- a/apps/docs/README.md
+++ b/apps/docs/README.md
@@ -0,0 +1,22 @@
 # Task Master Documentation
 Welcome to the Task Master documentation. Use the links below to navigate to the information you need:
 ## Getting Started
 - [Configuration Guide](archive/configuration.md) - Set up environment variables and customize Task Master
 - [Tutorial](archive/ctutorial.md) - Step-by-step guide to getting started with Task Master
 ## Reference
 - [Command Reference](archive/ccommand-reference.md) - Complete list of all available commands
 - [Task Structure](archive/ctask-structure.md) - Understanding the task format and features
 ## Examples & Licensing
 - [Example Interactions](archive/cexamples.md) - Common Cursor AI interaction examples
 - [Licensing Information](archive/clicensing.md) - Detailed information about the license
 ## Need More Help?
 If you can't find what you're looking for in these docs, please check the [main README](../README.md) or visit our [GitHub repository](https://github.com/eyaltoledano/claude-task-master).
--- a/apps/docs/archive/Installation.mdx
+++ b/apps/docs/archive/Installation.mdx
@@ -0,0 +1,114 @@
 ---
 title: "Installation(2)"
 description: "This guide walks you through setting up Task Master in your development environment."
 ---
 ## Initial Setup
 <Tip>
  MCP (Model Control Protocol) provides the easiest way to get started with Task Master directly in your editor.
 </Tip>
 <AccordionGroup>
  <Accordion title="Option 1: Using MCP (Recommended)" icon="sparkles">
    <Steps>
      <Step title="Add the MCP config to your editor">
        <Link href="https://cursor.sh">Cursor</Link> recommended, but it works with other text editors
        ```json
        {
        	"mcpServers": {
        		"taskmaster-ai": {
        			"command": "npx",
        			"args": ["-y", "task-master-ai"],
        			"env": {
        				"ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
        				"PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",
        				"MODEL": "claude-3-7-sonnet-20250219",
        				"PERPLEXITY_MODEL": "sonar-pro",
        				"MAX_TOKENS": 128000,
        				"TEMPERATURE": 0.2,
        				"DEFAULT_SUBTASKS": 5,
        				"DEFAULT_PRIORITY": "medium"
        			}
        		}
        	}
        }
        ```
      </Step>
      <Step title="Enable the MCP in your editor settings">
      </Step>
      <Step title="Prompt the AI to initialize Task Master">
        > "Can you please initialize taskmaster-ai into my project?"
        **The AI will:**
        1. Create necessary project structure
        2. Set up initial configuration files
        3. Guide you through the rest of the process
        4. Place your PRD document in the `scripts/` directory (e.g., `scripts/prd.txt`)
        5. **Use natural language commands** to interact with Task Master:
           > "Can you parse my PRD at scripts/prd.txt?"
           >
           > "What's the next task I should work on?"
           >
           > "Can you help me implement task 3?"
      </Step>
    </Steps>
  </Accordion>
  <Accordion title="Option 2: Manual Installation">
    If you prefer to use the command line interface directly:
    <Steps>
      <Step title="Install">
        <CodeGroup>
        ```bash Global
        npm install -g task-master-ai
        ```
        ```bash Local
        npm install task-master-ai
        ```
        </CodeGroup>
      </Step>
      <Step title="Initialize a new project">
        <CodeGroup>
        ```bash Global
        task-master init
        ```
        ```bash Local
        npx task-master-init
        ```
        </CodeGroup>
      </Step>
    </Steps>
    This will prompt you for project details and set up a new project with the necessary files and structure.
  </Accordion>
 </AccordionGroup>
 ## Common Commands
 <Tip>
  After setting up Task Master, you can use these commands (either via AI prompts or CLI)
 </Tip>
 ```bash
 # Parse a PRD and generate tasks
 task-master parse-prd your-prd.txt
 # List all tasks
 task-master list
 # Show the next task to work on
 task-master next
 # Generate task files
 task-master generate 
--- a/apps/docs/archive/ai-client-utils-example.mdx
+++ b/apps/docs/archive/ai-client-utils-example.mdx
@@ -0,0 +1,263 @@
 ---
 title: "AI Client Utilities for MCP Tools"
 description: "This document provides examples of how to use the new AI client utilities with AsyncOperationManager in MCP tools."
 ---
 ## Examples
 <AccordionGroup>
  <Accordion title="Basic Usage with Direct Functions">
    ```javascript
    // In your direct function implementation:
    import {
        getAnthropicClientForMCP,
        getModelConfig,
        handleClaudeError
    } from '../utils/ai-client-utils.js';
    export async function someAiOperationDirect(args, log, context) {
        try {
            // Initialize Anthropic client with session from context
            const client = getAnthropicClientForMCP(context.session, log);
            // Get model configuration with defaults or session overrides
            const modelConfig = getModelConfig(context.session);
            // Make API call with proper error handling
            try {
                const response = await client.messages.create({
                    model: modelConfig.model,
                    max_tokens: modelConfig.maxTokens,
                    temperature: modelConfig.temperature,
                    messages: [{ role: 'user', content: 'Your prompt here' }]
                });
                return {
                    success: true,
                    data: response
                };
            } catch (apiError) {
                // Use helper to get user-friendly error message
                const friendlyMessage = handleClaudeError(apiError);
                return {
                    success: false,
                    error: {
                        code: 'AI_API_ERROR',
                        message: friendlyMessage
                    }
                };
            }
        } catch (error) {
            // Handle client initialization errors
            return {
                success: false,
                error: {
                    code: 'AI_CLIENT_ERROR',
                    message: error.message
                }
            };
        }
    }
    ```
  </Accordion>
  <Accordion title="Integration with AsyncOperationManager">
    ```javascript
    // In your MCP tool implementation:
    import {
        AsyncOperationManager,
        StatusCodes
    } from '../../utils/async-operation-manager.js';
    import { someAiOperationDirect } from '../../core/direct-functions/some-ai-operation.js';
    export async function someAiOperation(args, context) {
        const { session, mcpLog } = context;
        const log = mcpLog || console;
        try {
            // Create operation description
            const operationDescription = `AI operation: ${args.someParam}`;
            // Start async operation
            const operation = AsyncOperationManager.createOperation(
                operationDescription,
                async (reportProgress) => {
                    try {
                        // Initial progress report
                        reportProgress({
                            progress: 0,
                            status: 'Starting AI operation...'
                        });
                        // Call direct function with session and progress reporting
                        const result = await someAiOperationDirect(args, log, {
                            reportProgress,
                            mcpLog: log,
                            session
                        });
                        // Final progress update
                        reportProgress({
                            progress: 100,
                            status: result.success ? 'Operation completed' : 'Operation failed',
                            result: result.data,
                            error: result.error
                        });
                        return result;
                    } catch (error) {
                        // Handle errors in the operation
                        reportProgress({
                            progress: 100,
                            status: 'Operation failed',
                            error: {
                                message: error.message,
                                code: error.code || 'OPERATION_FAILED'
                            }
                        });
                        throw error;
                    }
                }
            );
            // Return immediate response with operation ID
            return {
                status: StatusCodes.ACCEPTED,
                body: {
                    success: true,
                    message: 'Operation started',
                    operationId: operation.id
                }
            };
        } catch (error) {
            // Handle errors in the MCP tool
            log.error(`Error in someAiOperation: ${error.message}`);
            return {
                status: StatusCodes.INTERNAL_SERVER_ERROR,
                body: {
                    success: false,
                    error: {
                        code: 'OPERATION_FAILED',
                        message: error.message
                    }
                }
            };
        }
    }
    ```
  </Accordion>
  <Accordion title="Using Research Capabilities with Perplexity">
    ```javascript
    // In your direct function:
    import {
        getPerplexityClientForMCP,
        getBestAvailableAIModel
    } from '../utils/ai-client-utils.js';
    export async function researchOperationDirect(args, log, context) {
        try {
            // Get the best AI model for this operation based on needs
            const { type, client } = await getBestAvailableAIModel(
                context.session,
                { requiresResearch: true },
                log
            );
            // Report which model we're using
            if (context.reportProgress) {
                await context.reportProgress({
                    progress: 10,
                    status: `Using ${type} model for research...`
                });
            }
            // Make API call based on the model type
            if (type === 'perplexity') {
                // Call Perplexity
                const response = await client.chat.completions.create({
                    model: context.session?.env?.PERPLEXITY_MODEL || 'sonar-medium-online',
                    messages: [{ role: 'user', content: args.researchQuery }],
                    temperature: 0.1
                });
                return {
                    success: true,
                    data: response.choices[0].message.content
                };
            } else {
                // Call Claude as fallback
                // (Implementation depends on specific needs)
                // ...
            }
        } catch (error) {
            // Handle errors
            return {
                success: false,
                error: {
                    code: 'RESEARCH_ERROR',
                    message: error.message
                }
            };
        }
    }
    ```
  </Accordion>
  <Accordion title="Model Configuration Override">
    ```javascript
    // In your direct function:
    import { getModelConfig } from '../utils/ai-client-utils.js';
    // Using custom defaults for a specific operation
    const operationDefaults = {
        model: 'claude-3-haiku-20240307', // Faster, smaller model
        maxTokens: 1000, // Lower token limit
        temperature: 0.2 // Lower temperature for more deterministic output
    };
    // Get model config with operation-specific defaults
    const modelConfig = getModelConfig(context.session, operationDefaults);
    // Now use modelConfig in your API calls
    const response = await client.messages.create({
        model: modelConfig.model,
        max_tokens: modelConfig.maxTokens,
        temperature: modelConfig.temperature
        // Other parameters...
    });
    ```
  </Accordion>
 </AccordionGroup>
 ## Best Practices
 <AccordionGroup>
  <Accordion title="Error Handling">
    - Always use try/catch blocks around both client initialization and API calls
    - Use `handleClaudeError` to provide user-friendly error messages
    - Return standardized error objects with code and message
  </Accordion>
  <Accordion title="Progress Reporting">
    - Report progress at key points (starting, processing, completing)
    - Include meaningful status messages
    - Include error details in progress reports when failures occur
  </Accordion>
  <Accordion title="Session Handling">
    - Always pass the session from the context to the AI client getters
    - Use `getModelConfig` to respect user settings from session
  </Accordion>
  <Accordion title="Model Selection">
    - Use `getBestAvailableAIModel` when you need to select between different models
    - Set `requiresResearch: true` when you need Perplexity capabilities
  </Accordion>
  <Accordion title="AsyncOperationManager Integration">
    - Create descriptive operation names
    - Handle all errors within the operation function
    - Return standardized results from direct functions
    - Return immediate responses with operation IDs
  </Accordion>
 </AccordionGroup>
--- a/apps/docs/archive/ai-development-workflow.mdx
+++ b/apps/docs/archive/ai-development-workflow.mdx
@@ -0,0 +1,180 @@
 ---
 title: "AI Development Workflow"
 description: "Learn how Task Master and Cursor AI work together to streamline your development workflow"
 ---
 <Tip>The Cursor agent is pre-configured (via the rules file) to follow this workflow</Tip>
 <AccordionGroup>
  <Accordion title="1. Task Discovery and Selection">
    Ask the agent to list available tasks:
    ```
    What tasks are available to work on next?
    ```
    The agent will:
    - Run `task-master list` to see all tasks
    - Run `task-master next` to determine the next task to work on
    - Analyze dependencies to determine which tasks are ready to be worked on
    - Prioritize tasks based on priority level and ID order
    - Suggest the next task(s) to implement
  </Accordion>
  <Accordion title="2. Task Implementation">
    When implementing a task, the agent will:
    - Reference the task's details section for implementation specifics
    - Consider dependencies on previous tasks
    - Follow the project's coding standards
    - Create appropriate tests based on the task's testStrategy
    You can ask:
    ```
    Let's implement task 3. What does it involve?
    ```
  </Accordion>
  <Accordion title="3. Task Verification">
    Before marking a task as complete, verify it according to:
    - The task's specified testStrategy
    - Any automated tests in the codebase
    - Manual verification if required
  </Accordion>
  <Accordion title="4. Task Completion">
    When a task is completed, tell the agent:
    ```
    Task 3 is now complete. Please update its status.
    ```
    The agent will execute:
    ```bash
    task-master set-status --id=3 --status=done
    ```
  </Accordion>
  <Accordion title="5. Handling Implementation Drift">
    If during implementation, you discover that:
    - The current approach differs significantly from what was planned
    - Future tasks need to be modified due to current implementation choices
    - New dependencies or requirements have emerged
    Tell the agent:
    ```
    We've changed our approach. We're now using Express instead of Fastify. Please update all future tasks to reflect this change.
    ```
    The agent will execute:
    ```bash
    task-master update --from=4 --prompt="Now we are using Express instead of Fastify."
    ```
    This will rewrite or re-scope subsequent tasks in tasks.json while preserving completed work.
  </Accordion>
  <Accordion title="6. Breaking Down Complex Tasks">
    For complex tasks that need more granularity:
    ```
    Task 5 seems complex. Can you break it down into subtasks?
    ```
    The agent will execute:
    ```bash
    task-master expand --id=5 --num=3
    ```
    You can provide additional context:
    ```
    Please break down task 5 with a focus on security considerations.
    ```
    The agent will execute:
    ```bash
    task-master expand --id=5 --prompt="Focus on security aspects"
    ```
    You can also expand all pending tasks:
    ```
    Please break down all pending tasks into subtasks.
    ```
    The agent will execute:
    ```bash
    task-master expand --all
    ```
    For research-backed subtask generation using Perplexity AI:
    ```
    Please break down task 5 using research-backed generation.
    ```
    The agent will execute:
    ```bash
    task-master expand --id=5 --research
    ```
  </Accordion>
 </AccordionGroup>
 ## Example Cursor AI Interactions
 <AccordionGroup>
  <Accordion title="Starting a new project">
    ```
    I've just initialized a new project with Claude Task Master. I have a PRD at scripts/prd.txt.
    Can you help me parse it and set up the initial tasks?
    ```
  </Accordion>
  <Accordion title="Working on tasks">
    ```
    What's the next task I should work on? Please consider dependencies and priorities.
    ```
  </Accordion>
  <Accordion title="Implementing a specific task">
    ```
    I'd like to implement task 4. Can you help me understand what needs to be done and how to approach it?
    ```
  </Accordion>
  <Accordion title="Managing subtasks">
    ```
    I need to regenerate the subtasks for task 3 with a different approach. Can you help me clear and regenerate them?
    ```
  </Accordion>
  <Accordion title="Handling changes">
    ```
    We've decided to use MongoDB instead of PostgreSQL. Can you update all future tasks to reflect this change?
    ```
  </Accordion>
  <Accordion title="Completing work">
    ```
    I've finished implementing the authentication system described in task 2. All tests are passing.
    Please mark it as complete and tell me what I should work on next.
    ```
  </Accordion>
  <Accordion title="Analyzing complexity">
    ```
    Can you analyze the complexity of our tasks to help me understand which ones need to be broken down further?
    ```
  </Accordion>
  <Accordion title="Viewing complexity report">
    ```
    Can you show me the complexity report in a more readable format?
    ```
  </Accordion>
 </AccordionGroup>
--- a/apps/docs/archive/command-reference.mdx
+++ b/apps/docs/archive/command-reference.mdx
@@ -0,0 +1,208 @@
 ---
 title: "Task Master Commands"
 description: "A comprehensive reference of all available Task Master commands"
 ---
 <AccordionGroup>
  <Accordion title="Parse PRD">
    ```bash
    # Parse a PRD file and generate tasks
    task-master parse-prd <prd-file.txt>
    # Limit the number of tasks generated
    task-master parse-prd <prd-file.txt> --num-tasks=10
    ```
  </Accordion>
  <Accordion title="List Tasks">
    ```bash
    # List all tasks
    task-master list
    # List tasks with a specific status
    task-master list --status=<status>
    # List tasks with subtasks
    task-master list --with-subtasks
    # List tasks with a specific status and include subtasks
    task-master list --status=<status> --with-subtasks
    ```
  </Accordion>
  <Accordion title="Show Next Task">
    ```bash
    # Show the next task to work on based on dependencies and status
    task-master next
    ```
  </Accordion>
  <Accordion title="Show Specific Task">
    ```bash
    # Show details of a specific task
    task-master show <id>
    # or
    task-master show --id=<id>
    # View a specific subtask (e.g., subtask 2 of task 1)
    task-master show 1.2
    ```
  </Accordion>
  <Accordion title="Update Tasks">
    ```bash
    # Update tasks from a specific ID and provide context
    task-master update --from=<id> --prompt="<prompt>"
    ```
  </Accordion>
  <Accordion title="Update a Specific Task">
    ```bash
    # Update a single task by ID with new information
    task-master update-task --id=<id> --prompt="<prompt>"
    # Use research-backed updates with Perplexity AI
    task-master update-task --id=<id> --prompt="<prompt>" --research
    ```
  </Accordion>
  <Accordion title="Update a Subtask">
    ```bash
    # Append additional information to a specific subtask
    task-master update-subtask --id=<parentId.subtaskId> --prompt="<prompt>"
    # Example: Add details about API rate limiting to subtask 2 of task 5
    task-master update-subtask --id=5.2 --prompt="Add rate limiting of 100 requests per minute"
    # Use research-backed updates with Perplexity AI
    task-master update-subtask --id=<parentId.subtaskId> --prompt="<prompt>" --research
    ```
    Unlike the `update-task` command which replaces task information, the `update-subtask` command _appends_ new information to the existing subtask details, marking it with a timestamp. This is useful for iteratively enhancing subtasks while preserving the original content.
  </Accordion>
  <Accordion title="Generate Task Files">
    ```bash
    # Generate individual task files from tasks.json
    task-master generate
    ```
  </Accordion>
  <Accordion title="Set Task Status">
    ```bash
    # Set status of a single task
    task-master set-status --id=<id> --status=<status>
    # Set status for multiple tasks
    task-master set-status --id=1,2,3 --status=<status>
    # Set status for subtasks
    task-master set-status --id=1.1,1.2 --status=<status>
    ```
    When marking a task as "done", all of its subtasks will automatically be marked as "done" as well.
  </Accordion>
  <Accordion title="Expand Tasks">
    ```bash
    # Expand a specific task with subtasks
    task-master expand --id=<id> --num=<number>
    # Expand with additional context
    task-master expand --id=<id> --prompt="<context>"
    # Expand all pending tasks
    task-master expand --all
    # Force regeneration of subtasks for tasks that already have them
    task-master expand --all --force
    # Research-backed subtask generation for a specific task
    task-master expand --id=<id> --research
    # Research-backed generation for all tasks
    task-master expand --all --research
    ```
  </Accordion>
  <Accordion title="Clear Subtasks">
    ```bash
    # Clear subtasks from a specific task
    task-master clear-subtasks --id=<id>
    # Clear subtasks from multiple tasks
    task-master clear-subtasks --id=1,2,3
    # Clear subtasks from all tasks
    task-master clear-subtasks --all
    ```
  </Accordion>
  <Accordion title="Analyze Task Complexity">
    ```bash
    # Analyze complexity of all tasks
    task-master analyze-complexity
    # Save report to a custom location
    task-master analyze-complexity --output=my-report.json
    # Use a specific LLM model
    task-master analyze-complexity --model=claude-3-opus-20240229
    # Set a custom complexity threshold (1-10)
    task-master analyze-complexity --threshold=6
    # Use an alternative tasks file
    task-master analyze-complexity --file=custom-tasks.json
    # Use Perplexity AI for research-backed complexity analysis
    task-master analyze-complexity --research
    ```
  </Accordion>
  <Accordion title="View Complexity Report">
    ```bash
    # Display the task complexity analysis report
    task-master complexity-report
    # View a report at a custom location
    task-master complexity-report --file=my-report.json
    ```
  </Accordion>
  <Accordion title="Managing Task Dependencies">
    ```bash
    # Add a dependency to a task
    task-master add-dependency --id=<id> --depends-on=<id>
    # Remove a dependency from a task
    task-master remove-dependency --id=<id> --depends-on=<id>
    # Validate dependencies without fixing them
    task-master validate-dependencies
    # Find and fix invalid dependencies automatically
    task-master fix-dependencies
    ```
  </Accordion>
  <Accordion title="Add a New Task">
    ```bash
    # Add a new task using AI
    task-master add-task --prompt="Description of the new task"
    # Add a task with dependencies
    task-master add-task --prompt="Description" --dependencies=1,2,3
    # Add a task with priority
    task-master add-task --prompt="Description" --priority=high
    ```
  </Accordion>
  <Accordion title="Initialize a Project">
    ```bash
    # Initialize a new project with Task Master structure
    task-master init
    ```
  </Accordion>
 </AccordionGroup>
--- a/apps/docs/archive/configuration.mdx
+++ b/apps/docs/archive/configuration.mdx
@@ -0,0 +1,80 @@
 ---
 title: "Configuration"
 description: "Configure Task Master through environment variables in a .env file"
 ---
 ## Required Configuration
 <Note>
  Task Master requires an Anthropic API key to function. Add this to your `.env` file:
  ```bash
  ANTHROPIC_API_KEY=sk-ant-api03-your-api-key
  ```
  You can obtain an API key from the [Anthropic Console](https://console.anthropic.com/).
 </Note>
 ## Optional Configuration
 | Variable | Default Value | Description | Example |
 | --- | --- | --- | --- |
 | `MODEL` | `"claude-3-7-sonnet-20250219"` | Claude model to use | `MODEL=claude-3-opus-20240229` |
 | `MAX_TOKENS` | `"4000"` | Maximum tokens for responses | `MAX_TOKENS=8000` |
 | `TEMPERATURE` | `"0.7"` | Temperature for model responses | `TEMPERATURE=0.5` |
 | `DEBUG` | `"false"` | Enable debug logging | `DEBUG=true` |
 | `LOG_LEVEL` | `"info"` | Console output level | `LOG_LEVEL=debug` |
 | `DEFAULT_SUBTASKS` | `"3"` | Default subtask count | `DEFAULT_SUBTASKS=5` |
 | `DEFAULT_PRIORITY` | `"medium"` | Default priority | `DEFAULT_PRIORITY=high` |
 | `PROJECT_NAME` | `"MCP SaaS MVP"` | Project name in metadata | `PROJECT_NAME=My Awesome Project` |
 | `PROJECT_VERSION` | `"1.0.0"` | Version in metadata | `PROJECT_VERSION=2.1.0` |
 | `PERPLEXITY_API_KEY` | - | For research-backed features | `PERPLEXITY_API_KEY=pplx-...` |
 | `PERPLEXITY_MODEL` | `"sonar-medium-online"` | Perplexity model | `PERPLEXITY_MODEL=sonar-large-online` |
 ## Example .env File
 ```
 # Required
 ANTHROPIC_API_KEY=sk-ant-api03-your-api-key
 # Optional - Claude Configuration
 MODEL=claude-3-7-sonnet-20250219
 MAX_TOKENS=4000
 TEMPERATURE=0.7
 # Optional - Perplexity API for Research
 PERPLEXITY_API_KEY=pplx-your-api-key
 PERPLEXITY_MODEL=sonar-medium-online
 # Optional - Project Info
 PROJECT_NAME=My Project
 PROJECT_VERSION=1.0.0
 # Optional - Application Configuration
 DEFAULT_SUBTASKS=3
 DEFAULT_PRIORITY=medium
 DEBUG=false
 LOG_LEVEL=info
 ```
 ## Troubleshooting
 ### If `task-master init` doesn't respond:
 Try running it with Node directly:
 ```bash
 node node_modules/claude-task-master/scripts/init.js
 ```
 Or clone the repository and run:
 ```bash
 git clone https://github.com/eyaltoledano/claude-task-master.git
 cd claude-task-master
 node scripts/init.js
 ```
 <Note>
 For advanced configuration options and detailed customization, see our [Advanced Configuration Guide] page.
 </Note>
--- a/apps/docs/archive/cursor-setup.mdx
+++ b/apps/docs/archive/cursor-setup.mdx
@@ -0,0 +1,95 @@
 ---
 title: "Cursor AI Integration"
 description: "Learn how to set up and use Task Master with Cursor AI"
 ---
 ## Setting up Cursor AI Integration
 <Check>
  Task Master is designed to work seamlessly with [Cursor AI](https://www.cursor.so/), providing a structured workflow for AI-driven development.
 </Check>
 <AccordionGroup>
  <Accordion title="Using Cursor with MCP (Recommended)" icon="sparkles">
    If you've already set up Task Master with MCP in Cursor, the integration is automatic. You can simply use natural language to interact with Task Master:
    ```
    What tasks are available to work on next?
    Can you analyze the complexity of our tasks?
    I'd like to implement task 4. What does it involve?
    ```
  </Accordion>
  <Accordion title="Manual Cursor Setup">
    If you're not using MCP, you can still set up Cursor integration:
    <Steps>
      <Step title="After initializing your project, open it in Cursor">
        The `.cursor/rules/dev_workflow.mdc` file is automatically loaded by Cursor, providing the AI with knowledge about the task management system
      </Step>
      <Step title="Place your PRD document in the scripts/ directory (e.g., scripts/prd.txt)">
      </Step>
      <Step title="Open Cursor's AI chat and switch to Agent mode">
      </Step>
    </Steps>
  </Accordion>
  <Accordion title="Alternative MCP Setup in Cursor">
    <Steps>
      <Step title="Go to Cursor settings">
      </Step>
      <Step title="Navigate to the MCP section">
      </Step>
      <Step title="Click on 'Add New MCP Server'">
      </Step>
      <Step title="Configure with the following details:">
        - Name: "Task Master"
        - Type: "Command"
        - Command: "npx -y task-master-ai"
      </Step>
      <Step title="Save Settings">
      </Step>
    </Steps>
    Once configured, you can interact with Task Master's task management commands directly through Cursor's interface, providing a more integrated experience.
  </Accordion>
 </AccordionGroup>
 ## Initial Task Generation
 In Cursor's AI chat, instruct the agent to generate tasks from your PRD:
 ```
 Please use the task-master parse-prd command to generate tasks from my PRD. The PRD is located at scripts/prd.txt.
 ```
 The agent will execute:
 ```bash
 task-master parse-prd scripts/prd.txt
 ```
 This will:
 - Parse your PRD document
 - Generate a structured `tasks.json` file with tasks, dependencies, priorities, and test strategies
 - The agent will understand this process due to the Cursor rules
 ### Generate Individual Task Files
 Next, ask the agent to generate individual task files:
 ```
 Please generate individual task files from tasks.json
 ```
 The agent will execute:
 ```bash
 task-master generate
 ```
 This creates individual task files in the `tasks/` directory (e.g., `task_001.txt`, `task_002.txt`), making it easier to reference specific tasks.
--- a/apps/docs/archive/examples.mdx
+++ b/apps/docs/archive/examples.mdx
@@ -0,0 +1,56 @@
 ---
 title: "Example Cursor AI Interactions"
 description: "Below are some common interactions with Cursor AI when using Task Master"
 ---
 <AccordionGroup>
  <Accordion title="Starting a new project">
    ```
    I've just initialized a new project with Claude Task Master. I have a PRD at scripts/prd.txt.
    Can you help me parse it and set up the initial tasks?
    ```
  </Accordion>
  <Accordion title="Working on tasks">
    ```
    What's the next task I should work on? Please consider dependencies and priorities.
    ```
  </Accordion>
  <Accordion title="Implementing a specific task">
    ```
    I'd like to implement task 4. Can you help me understand what needs to be done and how to approach it?
    ```
  </Accordion>
  <Accordion title="Managing subtasks">
    ```
    I need to regenerate the subtasks for task 3 with a different approach. Can you help me clear and regenerate them?
    ```
  </Accordion>
  <Accordion title="Handling changes">
    ```
    We've decided to use MongoDB instead of PostgreSQL. Can you update all future tasks to reflect this change?
    ```
  </Accordion>
  <Accordion title="Completing work">
    ```
    I've finished implementing the authentication system described in task 2. All tests are passing.
    Please mark it as complete and tell me what I should work on next.
    ```
  </Accordion>
  <Accordion title="Analyzing complexity">
    ```
    Can you analyze the complexity of our tasks to help me understand which ones need to be broken down further?
    ```
  </Accordion>
  <Accordion title="Viewing complexity report">
    ```
    Can you show me the complexity report in a more readable format?
    ```
  </Accordion>
 </AccordionGroup>
--- a/apps/docs/best-practices/advanced-tasks.mdx
+++ b/apps/docs/best-practices/advanced-tasks.mdx
@@ -0,0 +1,210 @@
 ---
 title: Advanced Tasks
 sidebarTitle: "Advanced Tasks"
 ---
 ## AI-Driven Development Workflow
 The Cursor agent is pre-configured (via the rules file) to follow this workflow:
 ### 1. Task Discovery and Selection
 Ask the agent to list available tasks:
 ```
 What tasks are available to work on next?
 ```
 ```
 Can you show me tasks 1, 3, and 5 to understand their current status?
 ```
 The agent will:
 - Run `task-master list` to see all tasks
 - Run `task-master next` to determine the next task to work on
 - Run `task-master show 1,3,5` to display multiple tasks with interactive options
 - Analyze dependencies to determine which tasks are ready to be worked on
 - Prioritize tasks based on priority level and ID order
 - Suggest the next task(s) to implement
 ### 2. Task Implementation
 When implementing a task, the agent will:
 - Reference the task's details section for implementation specifics
 - Consider dependencies on previous tasks
 - Follow the project's coding standards
 - Create appropriate tests based on the task's testStrategy
 You can ask:
 ```
 Let's implement task 3. What does it involve?
 ```
 ### 2.1. Viewing Multiple Tasks
 For efficient context gathering and batch operations:
 ```
 Show me tasks 5, 7, and 9 so I can plan my implementation approach.
 ```
 The agent will:
 - Run `task-master show 5,7,9` to display a compact summary table
 - Show task status, priority, and progress indicators
 - Provide an interactive action menu with batch operations
 - Allow you to perform group actions like marking multiple tasks as in-progress
 ### 3. Task Verification
 Before marking a task as complete, verify it according to:
 - The task's specified testStrategy
 - Any automated tests in the codebase
 - Manual verification if required
 ### 4. Task Completion
 When a task is completed, tell the agent:
 ```
 Task 3 is now complete. Please update its status.
 ```
 The agent will execute:
 ```bash
 task-master set-status --id=3 --status=done
 ```
 ### 5. Handling Implementation Drift
 If during implementation, you discover that:
 - The current approach differs significantly from what was planned
 - Future tasks need to be modified due to current implementation choices
 - New dependencies or requirements have emerged
 Tell the agent:
 ```
 We've decided to use MongoDB instead of PostgreSQL. Can you update all future tasks (from ID 4) to reflect this change?
 ```
 The agent will execute:
 ```bash
 task-master update --from=4 --prompt="Now we are using MongoDB instead of PostgreSQL."
 # OR, if research is needed to find best practices for MongoDB:
 task-master update --from=4 --prompt="Update to use MongoDB, researching best practices" --research
 ```
 This will rewrite or re-scope subsequent tasks in tasks.json while preserving completed work.
 ### 6. Reorganizing Tasks
 If you need to reorganize your task structure:
 ```
 I think subtask 5.2 would fit better as part of task 7 instead. Can you move it there?
 ```
 The agent will execute:
 ```bash
 task-master move --from=5.2 --to=7.3
 ```
 You can reorganize tasks in various ways:
 - Moving a standalone task to become a subtask: `--from=5 --to=7`
 - Moving a subtask to become a standalone task: `--from=5.2 --to=7`
 - Moving a subtask to a different parent: `--from=5.2 --to=7.3`
 - Reordering subtasks within the same parent: `--from=5.2 --to=5.4`
 - Moving a task to a new ID position: `--from=5 --to=25` (even if task 25 doesn't exist yet)
 - Moving multiple tasks at once: `--from=10,11,12 --to=16,17,18` (must have same number of IDs, Taskmaster will look through each position)
 When moving tasks to new IDs:
 - The system automatically creates placeholder tasks for non-existent destination IDs
 - This prevents accidental data loss during reorganization
 - Any tasks that depend on moved tasks will have their dependencies updated
 - When moving a parent task, all its subtasks are automatically moved with it and renumbered
 This is particularly useful as your project understanding evolves and you need to refine your task structure.
 ### 7. Resolving Merge Conflicts with Tasks
 When working with a team, you might encounter merge conflicts in your tasks.json file if multiple team members create tasks on different branches. The move command makes resolving these conflicts straightforward:
 ```
 I just merged the main branch and there's a conflict with tasks.json. My teammates created tasks 10-15 while I created tasks 10-12 on my branch. Can you help me resolve this?
 ```
 The agent will help you:
 1. Keep your teammates' tasks (10-15)
 2. Move your tasks to new positions to avoid conflicts:
 ```bash
 # Move your tasks to new positions (e.g., 16-18)
 task-master move --from=10 --to=16
 task-master move --from=11 --to=17
 task-master move --from=12 --to=18
 ```
 This approach preserves everyone's work while maintaining a clean task structure, making it much easier to handle task conflicts than trying to manually merge JSON files.
 ### 8. Breaking Down Complex Tasks
 For complex tasks that need more granularity:
 ```
 Task 5 seems complex. Can you break it down into subtasks?
 ```
 The agent will execute:
 ```bash
 task-master expand --id=5 --num=3
 ```
 You can provide additional context:
 ```
 Please break down task 5 with a focus on security considerations.
 ```
 The agent will execute:
 ```bash
 task-master expand --id=5 --prompt="Focus on security aspects"
 ```
 You can also expand all pending tasks:
 ```
 Please break down all pending tasks into subtasks.
 ```
 The agent will execute:
 ```bash
 task-master expand --all
 ```
 For research-backed subtask generation using the configured research model:
 ```
 Please break down task 5 using research-backed generation.
 ```
 The agent will execute:
 ```bash
 task-master expand --id=5 --research
 ```
--- a/apps/docs/best-practices/configuration-advanced.mdx
+++ b/apps/docs/best-practices/configuration-advanced.mdx
@@ -0,0 +1,384 @@
 ---
 title: Advanced Configuration
 sidebarTitle: "Advanced Configuration"
 ---
 Taskmaster uses two primary methods for configuration:
 1.  **`.taskmaster/config.json` File (Recommended - New Structure)**
    - This JSON file stores most configuration settings, including AI model selections, parameters, logging levels, and project defaults.
    - **Location:** This file is created in the `.taskmaster/` directory when you run the `task-master models --setup` interactive setup or initialize a new project with `task-master init`.
    - **Migration:** Existing projects with `.taskmasterconfig` in the root will continue to work, but should be migrated to the new structure using `task-master migrate`.
    - **Management:** Use the `task-master models --setup` command (or `models` MCP tool) to interactively create and manage this file. You can also set specific models directly using `task-master models --set-<role>=<model_id>`, adding `--ollama` or `--openrouter` flags for custom models. Manual editing is possible but not recommended unless you understand the structure.
    - **Example Structure:**
      ```json
      {
        "models": {
          "main": {
            "provider": "anthropic",
            "modelId": "claude-3-7-sonnet-20250219",
            "maxTokens": 64000,
            "temperature": 0.2,
            "baseURL": "https://api.anthropic.com/v1"
          },
          "research": {
            "provider": "perplexity",
            "modelId": "sonar-pro",
            "maxTokens": 8700,
            "temperature": 0.1,
            "baseURL": "https://api.perplexity.ai/v1"
          },
          "fallback": {
            "provider": "anthropic",
            "modelId": "claude-3-5-sonnet",
            "maxTokens": 64000,
            "temperature": 0.2
          }
        },
        "global": {
          "logLevel": "info",
          "debug": false,
          "defaultSubtasks": 5,
          "defaultPriority": "medium",
          "defaultTag": "master",
          "projectName": "Your Project Name",
          "ollamaBaseURL": "http://localhost:11434/api",
          "azureBaseURL": "https://your-endpoint.azure.com/openai/deployments",
          "vertexProjectId": "your-gcp-project-id",
          "vertexLocation": "us-central1"
        }
      }
      ```
 2.  **Legacy `.taskmasterconfig` File (Backward Compatibility)**
    - For projects that haven't migrated to the new structure yet.
    - **Location:** Project root directory.
    - **Migration:** Use `task-master migrate` to move this to `.taskmaster/config.json`.
    - **Deprecation:** While still supported, you'll see warnings encouraging migration to the new structure.
 ## Environment Variables (`.env` file or MCP `env` block - For API Keys Only)
 - Used **exclusively** for sensitive API keys and specific endpoint URLs.
 - **Location:**
  - For CLI usage: Create a `.env` file in your project root.
  - For MCP/Cursor usage: Configure keys in the `env` section of your `.cursor/mcp.json` file.
 - **Required API Keys (Depending on configured providers):**
  - `ANTHROPIC_API_KEY`: Your Anthropic API key.
  - `PERPLEXITY_API_KEY`: Your Perplexity API key.
  - `OPENAI_API_KEY`: Your OpenAI API key.
  - `GOOGLE_API_KEY`: Your Google API key (also used for Vertex AI provider).
  - `MISTRAL_API_KEY`: Your Mistral API key.
  - `AZURE_OPENAI_API_KEY`: Your Azure OpenAI API key (also requires `AZURE_OPENAI_ENDPOINT`).
  - `OPENROUTER_API_KEY`: Your OpenRouter API key.
  - `XAI_API_KEY`: Your X-AI API key.
  - `GROK_CLI_API_KEY`: Your Grok API key from console.x.ai.
 - **Optional Endpoint Overrides:**
  - **Per-role `baseURL` in `.taskmasterconfig`:** You can add a `baseURL` property to any model role (`main`, `research`, `fallback`) to override the default API endpoint for that provider. If omitted, the provider's standard endpoint is used.
  - **Environment Variable Overrides (`<PROVIDER>_BASE_URL`):** For greater flexibility, especially with third-party services, you can set an environment variable like `OPENAI_BASE_URL` or `MISTRAL_BASE_URL`. This will override any `baseURL` set in the configuration file for that provider. This is the recommended way to connect to OpenAI-compatible APIs.
  - `AZURE_OPENAI_ENDPOINT`: Required if using Azure OpenAI key (can also be set as `baseURL` for the Azure model role).
  - `OLLAMA_BASE_URL`: Override the default Ollama API URL (Default: `http://localhost:11434/api`).
  - `VERTEX_PROJECT_ID`: Your Google Cloud project ID for Vertex AI. Required when using the 'vertex' provider.
  - `VERTEX_LOCATION`: Google Cloud region for Vertex AI (e.g., 'us-central1'). Default is 'us-central1'.
  - `GOOGLE_APPLICATION_CREDENTIALS`: Path to service account credentials JSON file for Google Cloud auth (alternative to API key for Vertex AI).
 - **Optional Auto-Update Control:**
  - `TASKMASTER_SKIP_AUTO_UPDATE`: Set to '1' to disable automatic updates. Also automatically disabled in CI environments (when `CI` environment variable is set).
 **Important:** Settings like model ID selections (`main`, `research`, `fallback`), `maxTokens`, `temperature`, `logLevel`, `defaultSubtasks`, `defaultPriority`, and `projectName` are **managed in `.taskmaster/config.json`** (or `.taskmasterconfig` for unmigrated projects), not environment variables.
 ## Tagged Task Lists Configuration (v0.17+)
 Taskmaster includes a tagged task lists system for multi-context task management.
 ### Global Tag Settings
 ```json
 "global": {
  "defaultTag": "master"
 }
 ```
 - **`defaultTag`** (string): Default tag context for new operations (default: "master")
 ### Git Integration
 Task Master provides manual git integration through the `--from-branch` option:
 - **Manual Tag Creation**: Use `task-master add-tag --from-branch` to create a tag based on your current git branch name
 - **User Control**: No automatic tag switching - you control when and how tags are created
 - **Flexible Workflow**: Supports any git workflow without imposing rigid branch-tag mappings
 ## State Management File
 Taskmaster uses `.taskmaster/state.json` to track tagged system runtime information:
 ```json
 {
  "currentTag": "master",
  "lastSwitched": "2025-06-11T20:26:12.598Z",
  "migrationNoticeShown": true
 }
 ```
 - **`currentTag`**: Currently active tag context
 - **`lastSwitched`**: Timestamp of last tag switch
 - **`migrationNoticeShown`**: Whether migration notice has been displayed
 This file is automatically created during tagged system migration and should not be manually edited.
 ## Example `.env` File (for API Keys)
 ```
 # Required API keys for providers configured in .taskmaster/config.json
 ANTHROPIC_API_KEY=sk-ant-api03-your-key-here
 PERPLEXITY_API_KEY=pplx-your-key-here
 # OPENAI_API_KEY=sk-your-key-here
 # GOOGLE_API_KEY=AIzaSy...
 # AZURE_OPENAI_API_KEY=your-azure-openai-api-key-here
 # etc.
 # Optional Endpoint Overrides
 # Use a specific provider's base URL, e.g., for an OpenAI-compatible API
 # OPENAI_BASE_URL=https://api.third-party.com/v1
 #
 # Azure OpenAI Configuration
 # AZURE_OPENAI_ENDPOINT=https://your-resource-name.openai.azure.com/ or https://your-endpoint-name.cognitiveservices.azure.com/openai/deployments
 # OLLAMA_BASE_URL=http://custom-ollama-host:11434/api
 # Google Vertex AI Configuration (Required if using 'vertex' provider)
 # VERTEX_PROJECT_ID=your-gcp-project-id
 ```
 ## Troubleshooting
 ### Configuration Errors
 - If Task Master reports errors about missing configuration or cannot find the config file, run `task-master models --setup` in your project root to create or repair the file.
 - For new projects, config will be created at `.taskmaster/config.json`. For legacy projects, you may want to use `task-master migrate` to move to the new structure.
 - Ensure API keys are correctly placed in your `.env` file (for CLI) or `.cursor/mcp.json` (for MCP) and are valid for the providers selected in your config file.
 ### If `task-master init` doesn't respond:
 Try running it with Node directly:
 ```bash
 node node_modules/claude-task-master/scripts/init.js
 ```
 Or clone the repository and run:
 ```bash
 git clone https://github.com/eyaltoledano/claude-task-master.git
 cd claude-task-master
 node scripts/init.js
 ```
 ## Provider-Specific Configuration
 ### Google Vertex AI Configuration
 Google Vertex AI is Google Cloud's enterprise AI platform and requires specific configuration:
 1. **Prerequisites**:
   - A Google Cloud account with Vertex AI API enabled
   - Either a Google API key with Vertex AI permissions OR a service account with appropriate roles
   - A Google Cloud project ID
 2. **Authentication Options**:
   - **API Key**: Set the `GOOGLE_API_KEY` environment variable
   - **Service Account**: Set `GOOGLE_APPLICATION_CREDENTIALS` to point to your service account JSON file
 3. **Required Configuration**:
   - Set `VERTEX_PROJECT_ID` to your Google Cloud project ID
   - Set `VERTEX_LOCATION` to your preferred Google Cloud region (default: us-central1)
 4. **Example Setup**:
   ```bash
   # In .env file
   GOOGLE_API_KEY=AIzaSyXXXXXXXXXXXXXXXXXXXXXXXXX
   VERTEX_PROJECT_ID=my-gcp-project-123
   VERTEX_LOCATION=us-central1
   ```
   Or using service account:
   ```bash
   # In .env file
   GOOGLE_APPLICATION_CREDENTIALS=/path/to/service-account.json
   VERTEX_PROJECT_ID=my-gcp-project-123
   VERTEX_LOCATION=us-central1
   ```
 5. **In .taskmaster/config.json**:
   ```json
   "global": {
     "vertexProjectId": "my-gcp-project-123",
     "vertexLocation": "us-central1"
   }
   ```
 ### Azure OpenAI Configuration
 Azure OpenAI provides enterprise-grade OpenAI models through Microsoft's Azure cloud platform and requires specific configuration:
 1. **Prerequisites**:
   - An Azure account with an active subscription
   - Azure OpenAI service resource created in the Azure portal
   - Azure OpenAI API key and endpoint URL
   - Deployed models (e.g., gpt-4o, gpt-4o-mini, gpt-4.1, etc) in your Azure OpenAI resource
 2. **Authentication**:
   - Set the `AZURE_OPENAI_API_KEY` environment variable with your Azure OpenAI API key
   - Configure the endpoint URL using one of the methods below
 3. **Configuration Options**:
   **Option 1: Using Global Azure Base URL (affects all Azure models)**
   ```json
   // In .taskmaster/config.json
   {
     "models": {
       "main": {
         "provider": "azure",
         "modelId": "gpt-4o",
         "maxTokens": 16000,
         "temperature": 0.7
       },
       "fallback": {
         "provider": "azure", 
         "modelId": "gpt-4o-mini",
         "maxTokens": 10000,
         "temperature": 0.7
       }
     },
     "global": {
       "azureBaseURL": "https://your-resource-name.azure.com/openai/deployments"
     }
   }
   ```
   **Option 2: Using Per-Model Base URLs (recommended for flexibility)**
   ```json
   // In .taskmaster/config.json
   {
     "models": {
       "main": {
         "provider": "azure",
         "modelId": "gpt-4o", 
         "maxTokens": 16000,
         "temperature": 0.7,
         "baseURL": "https://your-resource-name.azure.com/openai/deployments"
       },
       "research": {
         "provider": "perplexity",
         "modelId": "sonar-pro",
         "maxTokens": 8700,
         "temperature": 0.1
       },
       "fallback": {
         "provider": "azure",
         "modelId": "gpt-4o-mini",
         "maxTokens": 10000, 
         "temperature": 0.7,
         "baseURL": "https://your-resource-name.azure.com/openai/deployments"
       }
     }
   }
   ```
 4. **Environment Variables**:
   ```bash
   # In .env file
   AZURE_OPENAI_API_KEY=your-azure-openai-api-key-here
   # Optional: Override endpoint for all Azure models
   AZURE_OPENAI_ENDPOINT=https://your-resource-name.azure.com/openai/deployments
   ```
 5. **Important Notes**:
   - **Model Deployment Names**: The `modelId` in your configuration should match the **deployment name** you created in Azure OpenAI Studio, not the underlying model name
   - **Base URL Priority**: Per-model `baseURL` settings override the global `azureBaseURL` setting
   - **Endpoint Format**: When using per-model `baseURL`, use the full path including `/openai/deployments`
 6. **Troubleshooting**:
   **"Resource not found" errors:**
   - Ensure your `baseURL` includes the full path: `https://your-resource-name.openai.azure.com/openai/deployments`
   - Verify that your deployment name in `modelId` exactly matches what's configured in Azure OpenAI Studio
   - Check that your Azure OpenAI resource is in the correct region and properly deployed
   **Authentication errors:**
   - Verify your `AZURE_OPENAI_API_KEY` is correct and has not expired
   - Ensure your Azure OpenAI resource has the necessary permissions
   - Check that your subscription has not been suspended or reached quota limits
   **Model availability errors:**
   - Confirm the model is deployed in your Azure OpenAI resource
   - Verify the deployment name matches your configuration exactly (case-sensitive)
   - Ensure the model deployment is in a "Succeeded" state in Azure OpenAI Studio
   - Ensure youre not getting rate limited by `maxTokens` maintain appropriate Tokens per Minute Rate Limit (TPM) in your deployment.
 ### Grok AI Configuration
 Grok AI provides access to xAI's Grok models with enhanced reasoning capabilities and requires minimal configuration:
 1. **Prerequisites**:
   - An xAI account with API access
   - Grok API key from [console.x.ai](https://console.x.ai)
 2. **Authentication**:
   - Set the `GROK_CLI_API_KEY` environment variable with your Grok API key
 3. **Available Models**:
   - `grok-beta`: Latest Grok model with advanced reasoning
   - `grok-vision-beta`: Grok with vision capabilities for image analysis
 4. **Configuration Example**:
   ```json
   // In .taskmaster/config.json
   {
     "models": {
       "main": {
         "provider": "grok-cli",
         "modelId": "grok-beta",
         "maxTokens": 131072,
         "temperature": 0.3
       },
       "research": {
         "provider": "grok-cli",
         "modelId": "grok-vision-beta",
         "maxTokens": 131072,
         "temperature": 0.1
       }
     }
   }
   ```
 5. **Environment Variables**:
   ```bash
   # In .env file
   GROK_CLI_API_KEY=your-grok-api-key-here
   ```
 6. **Setup Commands**:
   ```bash
   # Set Grok as your main model
   task-master models --set-main grok-beta
   # Set Grok as your research model
   task-master models --set-research grok-beta
   # Set Grok as your fallback model
   task-master models --set-fallback grok-beta
   ```
 7. **Integration Features**:
   - **Local Configuration Support**: The Grok CLI provider can use your local Grok CLI configuration file (`~/.grok/user-settings.json`) if available
   - **Full Token Capacity**: Supports Grok's full 131K token capacity for large context operations
   - **Built on Grok CLI**: Uses the [grok-cli](https://github.com/superagent-ai/grok-cli) by Superagent AI for reliable integration
 8. **Troubleshooting**:
   - **API Key Issues**: Verify your `GROK_CLI_API_KEY` is correctly set and valid
   - **Model Availability**: Ensure you have access to the specified Grok model variant
   - **Rate Limits**: Grok models have generous rate limits, but large contexts may take longer to process
--- a/apps/docs/best-practices/index.mdx
+++ b/apps/docs/best-practices/index.mdx
@@ -0,0 +1,8 @@
 ---
 title: Intro to Advanced Usage
 sidebarTitle: "Advanced Usage"
 ---
 # Best Practices
 Explore advanced tips, recommended workflows, and best practices for getting the most out of Task Master. 
--- a/apps/docs/capabilities/cli-root-commands.mdx
+++ b/apps/docs/capabilities/cli-root-commands.mdx
@@ -0,0 +1,242 @@
 ---
 title: CLI Commands
 sidebarTitle: "CLI Commands"
 ---
 <AccordionGroup>
  <Accordion title="Parse PRD">
    ```bash
    # Parse a PRD file and generate tasks
    task-master parse-prd <prd-file.txt>
    # Limit the number of tasks generated
    task-master parse-prd <prd-file.txt> --num-tasks=10
    ```
  </Accordion>
  <Accordion title="List Tasks">
    ```bash
    # List all tasks
    task-master list
    # List tasks with a specific status
    task-master list --status=<status>
    # List tasks with subtasks
    task-master list --with-subtasks
    # List tasks with a specific status and include subtasks
    task-master list --status=<status> --with-subtasks
    ```
  </Accordion>
  <Accordion title="Show Next Task">
    ```bash
    # Show the next task to work on based on dependencies and status
    task-master next
    ```
  </Accordion>
  <Accordion title="Start Working on a Task">
    ```bash
    # Start working on a specific task with Claude Code
    task-master start <id>
    # Start the next available task automatically
    task-master start
    # Show what would be executed without launching Claude Code
    task-master start <id> --dry-run
    # Force start even if another task is in-progress
    task-master start <id> --force
    # Don't automatically update task status to in-progress
    task-master start <id> --no-status-update
    # Specify project root directory
    task-master start <id> --project /path/to/project
    # Get results in JSON format
    task-master start <id> --format json
    ```
    The `start` command automatically launches Claude Code with comprehensive context about the task, including:
    - Task details and requirements
    - Implementation guidelines
    - Related subtasks and dependencies
    - Project-specific context
    When no task ID is provided, it automatically finds and starts the next available task based on dependencies and status.
  </Accordion>
  <Accordion title="Show Specific Task">
    ```bash
    # Show details of a specific task
    task-master show <id>
    # or
    task-master show --id=<id>
    # View a specific subtask (e.g., subtask 2 of task 1)
    task-master show 1.2
    ```
  </Accordion>
  <Accordion title="Update Tasks">
    ```bash
    # Update tasks from a specific ID and provide context
    task-master update --from=<id> --prompt="<prompt>"
    ```
  </Accordion>
  <Accordion title="Update a Specific Task">
    ```bash
    # Update a single task by ID with new information
    task-master update-task --id=<id> --prompt="<prompt>"
    # Use research-backed updates with Perplexity AI
    task-master update-task --id=<id> --prompt="<prompt>" --research
    ```
  </Accordion>
  <Accordion title="Update a Subtask">
    ```bash
    # Append additional information to a specific subtask
    task-master update-subtask --id=<parentId.subtaskId> --prompt="<prompt>"
    # Example: Add details about API rate limiting to subtask 2 of task 5
    task-master update-subtask --id=5.2 --prompt="Add rate limiting of 100 requests per minute"
    # Use research-backed updates with Perplexity AI
    task-master update-subtask --id=<parentId.subtaskId> --prompt="<prompt>" --research
    ```
    Unlike the `update-task` command which replaces task information, the `update-subtask` command _appends_ new information to the existing subtask details, marking it with a timestamp. This is useful for iteratively enhancing subtasks while preserving the original content.
  </Accordion>
  <Accordion title="Generate Task Files">
    ```bash
    # Generate individual task files from tasks.json
    task-master generate
    ```
  </Accordion>
  <Accordion title="Set Task Status">
    ```bash
    # Set status of a single task
    task-master set-status --id=<id> --status=<status>
    # Set status for multiple tasks
    task-master set-status --id=1,2,3 --status=<status>
    # Set status for subtasks
    task-master set-status --id=1.1,1.2 --status=<status>
    ```
    When marking a task as "done", all of its subtasks will automatically be marked as "done" as well.
  </Accordion>
  <Accordion title="Expand Tasks">
    ```bash
    # Expand a specific task with subtasks
    task-master expand --id=<id> --num=<number>
    # Expand with additional context
    task-master expand --id=<id> --prompt="<context>"
    # Expand all pending tasks
    task-master expand --all
    # Force regeneration of subtasks for tasks that already have them
    task-master expand --all --force
    # Research-backed subtask generation for a specific task
    task-master expand --id=<id> --research
    # Research-backed generation for all tasks
    task-master expand --all --research
    ```
  </Accordion>
  <Accordion title="Clear Subtasks">
    ```bash
    # Clear subtasks from a specific task
    task-master clear-subtasks --id=<id>
    # Clear subtasks from multiple tasks
    task-master clear-subtasks --id=1,2,3
    # Clear subtasks from all tasks
    task-master clear-subtasks --all
    ```
  </Accordion>
  <Accordion title="Analyze Task Complexity">
    ```bash
    # Analyze complexity of all tasks
    task-master analyze-complexity
    # Save report to a custom location
    task-master analyze-complexity --output=my-report.json
    # Use a specific LLM model
    task-master analyze-complexity --model=claude-3-opus-20240229
    # Set a custom complexity threshold (1-10)
    task-master analyze-complexity --threshold=6
    # Use an alternative tasks file
    task-master analyze-complexity --file=custom-tasks.json
    # Use Perplexity AI for research-backed complexity analysis
    task-master analyze-complexity --research
    ```
  </Accordion>
  <Accordion title="View Complexity Report">
    ```bash
    # Display the task complexity analysis report
    task-master complexity-report
    # View a report at a custom location
    task-master complexity-report --file=my-report.json
    ```
  </Accordion>
  <Accordion title="Managing Task Dependencies">
    ```bash
    # Add a dependency to a task
    task-master add-dependency --id=<id> --depends-on=<id>
    # Remove a dependency from a task
    task-master remove-dependency --id=<id> --depends-on=<id>
    # Validate dependencies without fixing them
    task-master validate-dependencies
    # Find and fix invalid dependencies automatically
    task-master fix-dependencies
    ```
  </Accordion>
  <Accordion title="Add a New Task">
    ```bash
    # Add a new task using AI
    task-master add-task --prompt="Description of the new task"
    # Add a task with dependencies
    task-master add-task --prompt="Description" --dependencies=1,2,3
    # Add a task with priority
    task-master add-task --prompt="Description" --priority=high
    ```
  </Accordion>
  <Accordion title="Initialize a Project">
    ```bash
    # Initialize a new project with Task Master structure
    task-master init
    ```
  </Accordion>
 </AccordionGroup>
--- a/apps/docs/capabilities/index.mdx
+++ b/apps/docs/capabilities/index.mdx
@@ -0,0 +1,241 @@
 ---
 title: Technical Capabilities
 sidebarTitle: "Technical Capabilities"
 ---
 # Capabilities (Technical)
 Discover the technical capabilities of Task Master, including supported models, integrations, and more. 
 # CLI Interface Synopsis
 This document outlines the command-line interface (CLI) for the Task Master application, as defined in `bin/task-master.js` and the `scripts/modules/commands.js` file (which I will assume exists based on the context). This guide is intended for those writing user-facing documentation to understand how users interact with the application from the command line.
 ## Entry Point
 The main entry point for the CLI is the `task-master` command, which is an executable script that spawns the main application logic in `scripts/dev.js`.
 ## Global Options
 The following options are available for all commands:
 -   `-h, --help`: Display help information.
 -   `--version`: Display the application's version.
 ## Commands
 The CLI is organized into a series of commands, each with its own set of options. The following is a summary of the available commands, categorized by their functionality.
 ### 1. Task and Subtask Management
 -   **`add`**: Creates a new task using an AI-powered prompt.
    -   `--prompt <prompt>`: The prompt to use for generating the task.
    -   `--dependencies <dependencies>`: A comma-separated list of task IDs that this task depends on.
    -   `--priority <priority>`: The priority of the task (e.g., `high`, `medium`, `low`).
 -   **`add-subtask`**: Adds a subtask to a parent task.
    -   `--parent-id <parentId>`: The ID of the parent task.
    -   `--task-id <taskId>`: The ID of an existing task to convert to a subtask.
    -   `--title <title>`: The title of the new subtask.
 -   **`remove`**: Removes one or more tasks or subtasks.
    -   `--ids <ids>`: A comma-separated list of task or subtask IDs to remove.
 -   **`remove-subtask`**: Removes a subtask from its parent.
    -   `--id <subtaskId>`: The ID of the subtask to remove (in the format `parentId.subtaskId`).
    -   `--convert-to-task`: Converts the subtask to a standalone task.
 -   **`update`**: Updates multiple tasks starting from a specific ID.
    -   `--from <fromId>`: The ID of the task to start updating from.
    -   `--prompt <prompt>`: The new context to apply to the tasks.
 -   **`update-task`**: Updates a single task.
    -   `--id <taskId>`: The ID of the task to update.
    -   `--prompt <prompt>`: The new context to apply to the task.
 -   **`update-subtask`**: Appends information to a subtask.
    -   `--id <subtaskId>`: The ID of the subtask to update (in the format `parentId.subtaskId`).
    -   `--prompt <prompt>`: The information to append to the subtask.
 -   **`move`**: Moves a task or subtask.
    -   `--from <sourceId>`: The ID of the task or subtask to move.
    -   `--to <destinationId>`: The destination ID.
 -   **`clear-subtasks`**: Clears all subtasks from one or more tasks.
    -   `--ids <ids>`: A comma-separated list of task IDs.
 ### 2. Task Information and Status
 -   **`list`**: Lists all tasks.
    -   `--status <status>`: Filters tasks by status.
    -   `--with-subtasks`: Includes subtasks in the list.
 -   **`show`**: Shows the details of a specific task.
    -   `--id <taskId>`: The ID of the task to show.
 -   **`next`**: Shows the next task to work on.
 -   **`set-status`**: Sets the status of a task or subtask.
    -   `--id <id>`: The ID of the task or subtask.
    -   `--status <status>`: The new status.
 ### 3. Task Analysis and Expansion
 -   **`parse-prd`**: Parses a PRD to generate tasks.
    -   `--file <file>`: The path to the PRD file.
    -   `--num-tasks <numTasks>`: The number of tasks to generate.
 -   **`expand`**: Expands a task into subtasks.
    -   `--id <taskId>`: The ID of the task to expand.
    -   `--num-subtasks <numSubtasks>`: The number of subtasks to generate.
 -   **`expand-all`**: Expands all eligible tasks.
    -   `--num-subtasks <numSubtasks>`: The number of subtasks to generate for each task.
 -   **`analyze-complexity`**: Analyzes task complexity.
    -   `--file <file>`: The path to the tasks file.
 -   **`complexity-report`**: Displays the complexity analysis report.
 ### 4. Project and Configuration
 -   **`init`**: Initializes a new project.
 -   **`generate`**: Generates individual task files.
 -   **`migrate`**: Migrates a project to the new directory structure.
 -   **`research`**: Performs AI-powered research.
    -   `--query <query>`: The research query.
 This synopsis provides a comprehensive overview of the CLI commands and their options, which should be helpful for creating user-facing documentation.
 # Core Implementation Synopsis
 This document provides a high-level overview of the core implementation of the Task Master application, focusing on the functionalities exposed through `scripts/modules/task-manager.js`. This serves as a guide for understanding the application's capabilities when writing user-facing documentation.
 ## Core Concepts
 The application revolves around the management of tasks and subtasks, which are stored in a `tasks.json` file. The core logic provides functionalities to create, read, update, and delete tasks and subtasks, as well as manage their dependencies and statuses.
 ### Task Structure
 A task is a JSON object with the following key properties:
 -   `id`: A unique number identifying the task.
 -   `title`: A string representing the task's title.
 -   `description`: A string providing a brief description of the task.
 -   `details`: A string containing detailed information about the task.
 -   `testStrategy`: A string describing how to test the task.
 -   `status`: A string representing the task's current status (e.g., `pending`, `in-progress`, `done`).
 -   `dependencies`: An array of task IDs that this task depends on.
 -   `priority`: A string representing the task's priority (e.g., `high`, `medium`, `low`).
 -   `subtasks`: An array of subtask objects.
 A subtask has a similar structure to a task but is nested within a parent task.
 ## Feature Categories
 The core functionalities can be categorized as follows:
 ### 1. Task and Subtask Management
 These functions are the bread and butter of the application, allowing for the creation, modification, and deletion of tasks and subtasks.
 -   **`addTask(prompt, dependencies, priority)`**: Creates a new task using an AI-powered prompt to generate the title, description, details, and test strategy. It can also be used to create a task manually by providing the task data directly.
 -   **`addSubtask(parentId, existingTaskId, newSubtaskData)`**: Adds a subtask to a parent task. It can either convert an existing task into a subtask or create a new subtask from scratch.
 -   **`removeTask(taskIds)`**: Removes one or more tasks or subtasks.
 -   **`removeSubtask(subtaskId, convertToTask)`**: Removes a subtask from its parent. It can optionally convert the subtask into a standalone task.
 -   **`updateTaskById(taskId, prompt)`**: Updates a task's information based on a prompt.
 -   **`updateSubtaskById(subtaskId, prompt)`**: Appends additional information to a subtask's details.
 -   **`updateTasks(fromId, prompt)`**: Updates multiple tasks starting from a specific ID based on a new context.
 -   **`moveTask(sourceId, destinationId)`**: Moves a task or subtask to a new position.
 -   **`clearSubtasks(taskIds)`**: Clears all subtasks from one or more tasks.
 ### 2. Task Information and Status
 These functions are used to retrieve information about tasks and manage their status.
 -   **`listTasks(statusFilter, withSubtasks)`**: Lists all tasks, with options to filter by status and include subtasks.
 -   **`findTaskById(taskId)`**: Finds a task by its ID.
 -   **`taskExists(taskId)`**: Checks if a task with a given ID exists.
 -   **`setTaskStatus(taskIdInput, newStatus)`**: Sets the status of a task or subtask.
 -al
 -   **`updateSingleTaskStatus(taskIdInput, newStatus)`**: A helper function to update the status of a single task or subtask.
 -   **`findNextTask()`**: Determines the next task to work on based on dependencies and status.
 ### 3. Task Analysis and Expansion
 These functions leverage AI to analyze and break down tasks.
 -   **`parsePRD(prdPath, numTasks)`**: Parses a Product Requirements Document (PRD) to generate an initial set of tasks.
 -   **`expandTask(taskId, numSubtasks)`**: Expands a task into a specified number of subtasks using AI.
 -   **`expandAllTasks(numSubtasks)`**: Expands all eligible pending or in-progress tasks.
 -   **`analyzeTaskComplexity(options)`**: Analyzes the complexity of tasks and generates recommendations for expansion.
 -   **`readComplexityReport()`**: Reads the complexity analysis report.
 ### 4. Dependency Management
 These functions are crucial for managing the relationships between tasks.
 -   **`isTaskDependentOn(task, targetTaskId)`**: Checks if a task has a direct or indirect dependency on another task.
 ### 5. Project and Configuration
 These functions are for managing the project and its configuration.
 -   **`generateTaskFiles()`**: Generates individual task files from `tasks.json`.
 -   **`migrateProject()`**: Migrates the project to the new `.taskmaster` directory structure.
 -   **`performResearch(query, options)`**: Performs AI-powered research with project context.
 This overview should provide a solid foundation for creating user-facing documentation. For more detailed information on each function, refer to the source code in `scripts/modules/task-manager/`.
 # MCP Interface Synopsis
 This document provides an overview of the MCP (Machine-to-Machine Communication Protocol) interface for the Task Master application. The MCP interface is defined in the `mcp-server/` directory and exposes the application's core functionalities as a set of tools that can be called remotely.
 ## Core Concepts
 The MCP interface is built on top of the `fastmcp` library and registers a set of tools that correspond to the core functionalities of the Task Master application. These tools are defined in the `mcp-server/src/tools/` directory and are registered with the MCP server in `mcp-server/src/tools/index.js`.
 Each tool is defined with a name, a description, and a set of parameters that are validated using the `zod` library. The `execute` function of each tool calls the corresponding core logic function from `scripts/modules/task-manager.js`.
 ## Tool Categories
 The MCP tools can be categorized in the same way as the core functionalities:
 ### 1. Task and Subtask Management
 -   **`add_task`**: Creates a new task.
 -   **`add_subtask`**: Adds a subtask to a parent task.
 -   **`remove_task`**: Removes one or more tasks or subtasks.
 -   **`remove_subtask`**: Removes a subtask from its parent.
 -   **`update_task`**: Updates a single task.
 -   **`update_subtask`**: Appends information to a subtask.
 -   **`update`**: Updates multiple tasks.
 -   **`move_task`**: Moves a task or subtask.
 -   **`clear_subtasks`**: Clears all subtasks from one or more tasks.
 ### 2. Task Information and Status
 -   **`get_tasks`**: Lists all tasks.
 -   **`get_task`**: Shows the details of a specific task.
 -   **`next_task`**: Shows the next task to work on.
 -   **`set_task_status`**: Sets the status of a task or subtask.
 ### 3. Task Analysis and Expansion
 -   **`parse_prd`**: Parses a PRD to generate tasks.
 -   **`expand_task`**: Expands a task into subtasks.
 -   **`expand_all`**: Expands all eligible tasks.
 -   **`analyze_project_complexity`**: Analyzes task complexity.
 -   **`complexity_report`**: Displays the complexity analysis report.
 ### 4. Dependency Management
 -   **`add_dependency`**: Adds a dependency to a task.
 -   **`remove_dependency`**: Removes a dependency from a task.
 -   **`validate_dependencies`**: Validates the dependencies of all tasks.
 -   **`fix_dependencies`**: Fixes any invalid dependencies.
 ### 5. Project and Configuration
 -   **`initialize_project`**: Initializes a new project.
 -   **`generate`**: Generates individual task files.
 -   **`models`**: Manages AI model configurations.
 -   **`research`**: Performs AI-powered research.
 ### 6. Tag Management
 -   **`add_tag`**: Creates a new tag.
 -   **`delete_tag`**: Deletes a tag.
 -   **`list_tags`**: Lists all tags.
 -   **`use_tag`**: Switches to a different tag.
 -   **`rename_tag`**: Renames a tag.
 -   **`copy_tag`**: Copies a tag.
 This synopsis provides a clear overview of the MCP interface and its available tools, which will be valuable for anyone writing documentation for developers who need to interact with the Task Master application programmatically.
--- a/apps/docs/capabilities/mcp.mdx
+++ b/apps/docs/capabilities/mcp.mdx
@@ -0,0 +1,68 @@
 ---
 title: MCP Tools
 sidebarTitle: "MCP Tools"
 ---
 # MCP Tools
 This document provides an overview of the MCP (Machine-to-Machine Communication Protocol) interface for the Task Master application. The MCP interface is defined in the `mcp-server/` directory and exposes the application's core functionalities as a set of tools that can be called remotely.
 ## Core Concepts
 The MCP interface is built on top of the `fastmcp` library and registers a set of tools that correspond to the core functionalities of the Task Master application. These tools are defined in the `mcp-server/src/tools/` directory and are registered with the MCP server in `mcp-server/src/tools/index.js`.
 Each tool is defined with a name, a description, and a set of parameters that are validated using the `zod` library. The `execute` function of each tool calls the corresponding core logic function from `scripts/modules/task-manager.js`.
 ## Tool Categories
 The MCP tools can be categorized in the same way as the core functionalities:
 ### 1. Task and Subtask Management
 -   **`add_task`**: Creates a new task.
 -   **`add_subtask`**: Adds a subtask to a parent task.
 -   **`remove_task`**: Removes one or more tasks or subtasks.
 -   **`remove_subtask`**: Removes a subtask from its parent.
 -   **`update_task`**: Updates a single task.
 -   **`update_subtask`**: Appends information to a subtask.
 -   **`update`**: Updates multiple tasks.
 -   **`move_task`**: Moves a task or subtask.
 -   **`clear_subtasks`**: Clears all subtasks from one or more tasks.
 ### 2. Task Information and Status
 -   **`get_tasks`**: Lists all tasks.
 -   **`get_task`**: Shows the details of a specific task.
 -   **`next_task`**: Shows the next task to work on.
 -   **`set_task_status`**: Sets the status of a task or subtask.
 ### 3. Task Analysis and Expansion
 -   **`parse_prd`**: Parses a PRD to generate tasks.
 -   **`expand_task`**: Expands a task into subtasks.
 -   **`expand_all`**: Expands all eligible tasks.
 -   **`analyze_project_complexity`**: Analyzes task complexity.
 -   **`complexity_report`**: Displays the complexity analysis report.
 ### 4. Dependency Management
 -   **`add_dependency`**: Adds a dependency to a task.
 -   **`remove_dependency`**: Removes a dependency from a task.
 -   **`validate_dependencies`**: Validates the dependencies of all tasks.
 -   **`fix_dependencies`**: Fixes any invalid dependencies.
 ### 5. Project and Configuration
 -   **`initialize_project`**: Initializes a new project.
 -   **`generate`**: Generates individual task files.
 -   **`models`**: Manages AI model configurations.
 -   **`research`**: Performs AI-powered research.
 ### 6. Tag Management
 -   **`add_tag`**: Creates a new tag.
 -   **`delete_tag`**: Deletes a tag.
 -   **`list_tags`**: Lists all tags.
 -   **`use_tag`**: Switches to a different tag.
 -   **`rename_tag`**: Renames a tag.
 -   **`copy_tag`**: Copies a tag.
--- a/apps/docs/capabilities/task-structure.mdx
+++ b/apps/docs/capabilities/task-structure.mdx
@@ -0,0 +1,163 @@
 ---
 title: "Task Structure"
 sidebarTitle: "Task Structure"
 description: "Tasks in Task Master follow a specific format designed to provide comprehensive information for both humans and AI assistants."
 ---
 ## Task Fields in tasks.json
 Tasks in tasks.json have the following structure:
 | Field          | Description                                    | Example                                                |
 | -------------- | ---------------------------------------------- | ------------------------------------------------------ |
 | `id`           | Unique identifier for the task.                | `1`                                                    |
 | `title`        | Brief, descriptive title.                      | `"Initialize Repo"`                                    |
 | `description`  | What the task involves.                        | `"Create a new repository, set up initial structure."` |
 | `status`       | Current state.                                 | `"pending"`, `"done"`, `"deferred"`                    |
 | `dependencies` | Prerequisite task IDs. ✅ Completed, ⏱️ Pending | `[1, 2]`                                               |
 | `priority`     | Task importance.                               | `"high"`, `"medium"`, `"low"`                          |
 | `details`      | Implementation instructions.                   | `"Use GitHub client ID/secret, handle callback..."`    |
 | `testStrategy` | How to verify success.                         | `"Deploy and confirm 'Hello World' response."`         |
 | `subtasks`     | Nested subtasks related to the main task.      | `[{"id": 1, "title": "Configure OAuth", ...}]`         |
 ## Task File Format
 Individual task files follow this format:
 ```
 # Task ID: <id>
 # Title: <title>
 # Status: <status>
 # Dependencies: <comma-separated list of dependency IDs>
 # Priority: <priority>
 # Description: <brief description>
 # Details:
 <detailed implementation notes>
 # Test Strategy:
 <verification approach>
 ```
 ## Features in Detail
 <AccordionGroup>
 <Accordion title="Analyzing Task Complexity">
 The `analyze-complexity` command:
 - Analyzes each task using AI to assess its complexity on a scale of 1-10
 - Recommends optimal number of subtasks based on configured DEFAULT_SUBTASKS
 - Generates tailored prompts for expanding each task
 - Creates a comprehensive JSON report with ready-to-use commands
 - Saves the report to scripts/task-complexity-report.json by default
 The generated report contains:
 - Complexity analysis for each task (scored 1-10)
 - Recommended number of subtasks based on complexity
 - AI-generated expansion prompts customized for each task
 - Ready-to-run expansion commands directly within each task analysis
 </Accordion>
 <Accordion title="Viewing Complexity Report">
 The `complexity-report` command:
 - Displays a formatted, easy-to-read version of the complexity analysis report
 - Shows tasks organized by complexity score (highest to lowest)
 - Provides complexity distribution statistics (low, medium, high)
 - Highlights tasks recommended for expansion based on threshold score
 - Includes ready-to-use expansion commands for each complex task
 - If no report exists, offers to generate one on the spot
 </Accordion>
 <Accordion title="Smart Task Expansion">
 The `expand` command automatically checks for and uses the complexity report:
 When a complexity report exists:
 - Tasks are automatically expanded using the recommended subtask count and prompts
 - When expanding all tasks, they're processed in order of complexity (highest first)
 - Research-backed generation is preserved from the complexity analysis
 - You can still override recommendations with explicit command-line options
 Example workflow:
 ```bash
 # Generate the complexity analysis report with research capabilities
 task-master analyze-complexity --research
 # Review the report in a readable format
 task-master complexity-report
 # Expand tasks using the optimized recommendations
 task-master expand --id=8
 # or expand all tasks
 task-master expand --all
 ```
 </Accordion>
 <Accordion title="Finding the Next Task">
 The `next` command:
 - Identifies tasks that are pending/in-progress and have all dependencies satisfied
 - Prioritizes tasks by priority level, dependency count, and task ID
 - Displays comprehensive information about the selected task:
  - Basic task details (ID, title, priority, dependencies)
  - Implementation details
  - Subtasks (if they exist)
 - Provides contextual suggested actions:
  - Command to mark the task as in-progress
  - Command to mark the task as done
  - Commands for working with subtasks
 </Accordion>
 <Accordion title="Viewing Specific Task Details">
 The `show` command:
 - Displays comprehensive details about a specific task or subtask
 - Shows task status, priority, dependencies, and detailed implementation notes
 - For parent tasks, displays all subtasks and their status
 - For subtasks, shows parent task relationship
 - Provides contextual action suggestions based on the task's state
 - Works with both regular tasks and subtasks (using the format taskId.subtaskId)
 </Accordion>
 </AccordionGroup>
 ## Best Practices for AI-Driven Development
 <CardGroup cols={2}>
  <Card title="📝 Detailed PRD" icon="lightbulb">
    The more detailed your PRD, the better the generated tasks will be.
  </Card>
  <Card title="👀 Review Tasks" icon="magnifying-glass">
    After parsing the PRD, review the tasks to ensure they make sense and have appropriate dependencies.
  </Card>
  <Card title="📊 Analyze Complexity" icon="chart-line">
    Use the complexity analysis feature to identify which tasks should be broken down further.
  </Card>
  <Card title="⛓️ Follow Dependencies" icon="link">
    Always respect task dependencies - the Cursor agent will help with this.
  </Card>
  <Card title="🔄 Update As You Go" icon="arrows-rotate">
    If your implementation diverges from the plan, use the update command to keep future tasks aligned.
  </Card>
  <Card title="📦 Break Down Tasks" icon="boxes-stacked">
    Use the expand command to break down complex tasks into manageable subtasks.
  </Card>
  <Card title="🔄 Regenerate Files" icon="file-arrow-up">
    After any updates to tasks.json, regenerate the task files to keep them in sync.
  </Card>
  <Card title="💬 Provide Context" icon="comment">
    When asking the Cursor agent to help with a task, provide context about what you're trying to achieve.
  </Card>
  <Card title="✅ Validate Dependencies" icon="circle-check">
    Periodically run the validate-dependencies command to check for invalid or circular dependencies.
  </Card>
 </CardGroup>
--- a/apps/docs/docs.json
+++ b/apps/docs/docs.json
@@ -0,0 +1,83 @@
 {
 	"$schema": "https://mintlify.com/docs.json",
 	"theme": "mint",
 	"name": "Task Master",
 	"colors": {
 		"primary": "#3366CC",
 		"light": "#6699FF",
 		"dark": "#24478F"
 	},
 	"favicon": "/favicon.svg",
 	"navigation": {
 		"tabs": [
 			{
 				"tab": "Task Master Documentation",
 				"groups": [
 					{
 						"group": "Welcome",
 						"pages": ["introduction"]
 					},
 					{
 						"group": "Getting Started",
 						"pages": [
 							{
 								"group": "Quick Start",
 								"pages": [
 									"getting-started/quick-start/quick-start",
 									"getting-started/quick-start/requirements",
 									"getting-started/quick-start/installation",
 									"getting-started/quick-start/configuration-quick",
 									"getting-started/quick-start/prd-quick",
 									"getting-started/quick-start/tasks-quick",
 									"getting-started/quick-start/execute-quick"
 								]
 							},
 							"getting-started/faq",
 							"getting-started/contribute"
 						]
 					},
 					{
 						"group": "Best Practices",
 						"pages": [
 							"best-practices/index",
 							"best-practices/configuration-advanced",
 							"best-practices/advanced-tasks"
 						]
 					},
 					{
 						"group": "Technical Capabilities",
 						"pages": [
 							"capabilities/mcp",
 							"capabilities/cli-root-commands",
 							"capabilities/task-structure"
 						]
 					}
 				]
 			}
 		],
 		"global": {
 			"anchors": [
 				{
 					"anchor": "Github",
 					"href": "https://github.com/eyaltoledano/claude-task-master",
 					"icon": "github"
 				},
 				{
 					"anchor": "Discord",
 					"href": "https://discord.gg/fWJkU7rf",
 					"icon": "discord"
 				}
 			]
 		}
 	},
 	"logo": {
 		"light": "/logo/task-master-logo.png",
 		"dark": "/logo/task-master-logo.png"
 	},
 	"footer": {
 		"socials": {
 			"x": "https://x.com/TaskmasterAI",
 			"github": "https://github.com/eyaltoledano/claude-task-master"
 		}
 	}
 }
--- a/apps/docs/favicon.svg
+++ b/apps/docs/favicon.svg
@@ -0,0 +1,9 @@
 <svg width="100" height="100" viewBox="0 0 100 100" xmlns="http://www.w3.org/2000/svg">
  <!-- Blue form with check from logo -->
  <rect x="16" y="10" width="68" height="80" rx="9" fill="#3366CC"/>
  <polyline points="33,44 41,55 56,29" fill="none" stroke="#FFFFFF" stroke-width="6"/>
  <circle cx="33" cy="64" r="4" fill="#FFFFFF"/>
  <rect x="43" y="61" width="27" height="6" fill="#FFFFFF"/>
  <circle cx="33" cy="77" r="4" fill="#FFFFFF"/>
  <rect x="43" y="75" width="27" height="6" fill="#FFFFFF"/>
 </svg>
--- a/apps/docs/getting-started/contribute.mdx
+++ b/apps/docs/getting-started/contribute.mdx
@@ -0,0 +1,335 @@
 # Contributing to Task Master
 Thank you for your interest in contributing to Task Master! We're excited to work with you and appreciate your help in making this project better. 🚀
 ## 🤝 Our Collaborative Approach
 We're a **PR-friendly team** that values collaboration:
 - ✅ **We review PRs quickly** - Usually within hours, not days
 - ✅ **We're super reactive** - Expect fast feedback and engagement
 - ✅ **We sometimes take over PRs** - If your contribution is valuable but needs cleanup, we might jump in to help finish it
 - ✅ **We're open to all contributions** - From bug fixes to major features
 **We don't mind AI-generated code**, but we do expect you to:
 - ✅ **Review and understand** what the AI generated
 - ✅ **Test the code thoroughly** before submitting
 - ✅ **Ensure it's well-written** and follows our patterns
 - ❌ **Don't submit "AI slop"** - untested, unreviewed AI output
 > **Why this matters**: We spend significant time reviewing PRs. Help us help you by submitting quality contributions that save everyone time!
 ## 🚀 Quick Start for Contributors
 ### 1. Fork and Clone
 ```bash
 git clone https://github.com/YOUR_USERNAME/claude-task-master.git
 cd claude-task-master
 npm install
 ```
 ### 2. Create a Feature Branch
 **Important**: Always target the `next` branch, not `main`:
 ```bash
 git checkout next
 git pull origin next
 git checkout -b feature/your-feature-name
 ```
 ### 3. Make Your Changes
 Follow our development guidelines below.
 ### 4. Test Everything Yourself
 **Before submitting your PR**, ensure:
 ```bash
 # Run all tests
 npm test
 # Check formatting
 npm run format-check
 # Fix formatting if needed
 npm run format
 ```
 ### 5. Create a Changeset
 **Required for most changes**:
 ```bash
 npm run changeset
 ```
 See the [Changeset Guidelines](#changeset-guidelines) below for details.
 ### 6. Submit Your PR
 - Target the `next` branch
 - Write a clear description
 - Reference any related issues
 ## 📋 Development Guidelines
 ### Branch Strategy
 - **`main`**: Production-ready code
 - **`next`**: Development branch - **target this for PRs**
 - **Feature branches**: `feature/description` or `fix/description`
 ### Code Quality Standards
 1. **Write tests** for new functionality
 2. **Follow existing patterns** in the codebase
 3. **Add JSDoc comments** for functions
 4. **Keep functions focused** and single-purpose
 ### Testing Requirements
 Your PR **must pass all CI checks**:
 - ✅ **Unit tests**: `npm test`
 - ✅ **Format check**: `npm run format-check`
 **Test your changes locally first** - this saves review time and shows you care about quality.
 ## 📦 Changeset Guidelines
 We use [Changesets](https://github.com/changesets/changesets) to manage versioning and generate changelogs.
 ### When to Create a Changeset
 **Always create a changeset for**:
 - ✅ New features
 - ✅ Bug fixes
 - ✅ Breaking changes
 - ✅ Performance improvements
 - ✅ User-facing documentation updates
 - ✅ Dependency updates that affect functionality
 **Skip changesets for**:
 - ❌ Internal documentation only
 - ❌ Test-only changes
 - ❌ Code formatting/linting
 - ❌ Development tooling that doesn't affect users
 ### How to Create a Changeset
 1. **After making your changes**:
   ```bash
   npm run changeset
   ```
 2. **Choose the bump type**:
   - **Major**: Breaking changes
   - **Minor**: New features
   - **Patch**: Bug fixes, docs, performance improvements
 3. **Write a clear summary**:
   ```
   Add support for custom AI models in MCP configuration
   ```
 4. **Commit the changeset file** with your changes:
   ```bash
   git add .changeset/*.md
   git commit -m "feat: add custom AI model support"
   ```
 ### Changeset vs Git Commit Messages
 - **Changeset summary**: User-facing, goes in CHANGELOG.md
 - **Git commit**: Developer-facing, explains the technical change
 Example:
 ```bash
 # Changeset summary (user-facing)
 "Add support for custom Ollama models"
 # Git commit message (developer-facing)
 "feat(models): implement custom Ollama model validation
 - Add model validation for custom Ollama endpoints
 - Update configuration schema to support custom models
 - Add tests for new validation logic"
 ```
 ## 🔧 Development Setup
 ### Prerequisites
 - Node.js 18+
 - npm or yarn
 ### Environment Setup
 1. **Copy environment template**:
   ```bash
   cp .env.example .env
   ```
 2. **Add your API keys** (for testing AI features):
   ```bash
   ANTHROPIC_API_KEY=your_key_here
   OPENAI_API_KEY=your_key_here
   # Add others as needed
   ```
 ### Running Tests
 ```bash
 # Run all tests
 npm test
 # Run tests in watch mode
 npm run test:watch
 # Run with coverage
 npm run test:coverage
 # Run E2E tests
 npm run test:e2e
 ```
 ### Code Formatting
 We use Prettier for consistent formatting:
 ```bash
 # Check formatting
 npm run format-check
 # Fix formatting
 npm run format
 ```
 ## 📝 PR Guidelines
 ### Before Submitting
 - [ ] **Target the `next` branch**
 - [ ] **Test everything locally**
 - [ ] **Run the full test suite**
 - [ ] **Check code formatting**
 - [ ] **Create a changeset** (if needed)
 - [ ] **Re-read your changes** - ensure they're clean and well-thought-out
 ### PR Description Template
 ```markdown
 ## Description
 Brief description of what this PR does.
 ## Type of Change
 - [ ] Bug fix
 - [ ] New feature
 - [ ] Breaking change
 - [ ] Documentation update
 ## Testing
 - [ ] I have tested this locally
 - [ ] All existing tests pass
 - [ ] I have added tests for new functionality
 ## Changeset
 - [ ] I have created a changeset (or this change doesn't need one)
 ## Additional Notes
 Any additional context or notes for reviewers.
 ```
 ### What We Look For
 ✅ **Good PRs**:
 - Clear, focused changes
 - Comprehensive testing
 - Good commit messages
 - Proper changeset (when needed)
 - Self-reviewed code
 ❌ **Avoid**:
 - Massive PRs that change everything
 - Untested code
 - Formatting issues
 - Missing changesets for user-facing changes
 - AI-generated code that wasn't reviewed
 ## 🏗️ Project Structure
 ```
 claude-task-master/
 ├── bin/                    # CLI executables
 ├── mcp-server/            # MCP server implementation
 ├── scripts/               # Core task management logic
 ├── src/                   # Shared utilities and providers and well refactored code (we are slowly moving everything here)
 ├── tests/                 # Test files
 ├── docs/                  # Documentation
 └── .cursor/               # Cursor IDE rules and configuration
 └── assets/							   # Assets like rules and configuration for all IDEs
 ```
 ### Key Areas for Contribution
 - **CLI Commands**: `scripts/modules/commands.js`
 - **MCP Tools**: `mcp-server/src/tools/`
 - **Core Logic**: `scripts/modules/task-manager/`
 - **AI Providers**: `src/ai-providers/`
 - **Tests**: `tests/`
 ## 🐛 Reporting Issues
 ### Bug Reports
 Include:
 - Task Master version
 - Node.js version
 - Operating system
 - Steps to reproduce
 - Expected vs actual behavior
 - Error messages/logs
 ### Feature Requests
 Include:
 - Clear description of the feature
 - Use case/motivation
 - Proposed implementation (if you have ideas)
 - Willingness to contribute
 ## 💬 Getting Help
 - **Discord**: [Join our community](https://discord.gg/taskmasterai)
 - **Issues**: [GitHub Issues](https://github.com/eyaltoledano/claude-task-master/issues)
 - **Discussions**: [GitHub Discussions](https://github.com/eyaltoledano/claude-task-master/discussions)
 ## 📄 License
 By contributing, you agree that your contributions will be licensed under the same license as the project (MIT with Commons Clause).
 ---
 **Thank you for contributing to Task Master!** 🎉
 Your contributions help make AI-driven development more accessible and efficient for everyone.
--- a/apps/docs/getting-started/faq.mdx
+++ b/apps/docs/getting-started/faq.mdx
@@ -0,0 +1,12 @@
 ---
 title: FAQ
 sidebarTitle: "FAQ"
 ---
 Coming soon. 
 ## 💬 Getting Help
 - **Discord**: [Join our community](https://discord.gg/taskmasterai)
 - **Issues**: [GitHub Issues](https://github.com/eyaltoledano/claude-task-master/issues)
 - **Discussions**: [GitHub Discussions](https://github.com/eyaltoledano/claude-task-master/discussions)
--- a/apps/docs/getting-started/quick-start/configuration-quick.mdx
+++ b/apps/docs/getting-started/quick-start/configuration-quick.mdx
@@ -0,0 +1,112 @@
 ---
 title: Configuration
 sidebarTitle: "Configuration"
 ---
 Before getting started with Task Master, you'll need to set up your API keys. There are a couple of ways to do this depending on whether you're using the CLI or working inside MCP. It's also a good time to start getting familiar with the other configuration options available — even if you don’t need to adjust them yet, knowing what’s possible will help down the line.
 ## API Key Setup
 Task Master uses environment variables to securely store provider API keys and optional endpoint URLs.
 ### MCP Usage: mcp.json file
 For MCP/Cursor usage: Configure keys in the env section of your .cursor/mcp.json file.
 ```java .env lines icon="java"
 {
 	"mcpServers": {
 		"task-master-ai": {
 			"command": "node",
 			"args": ["./mcp-server/server.js"],
 			"env": {
 				"ANTHROPIC_API_KEY": "ANTHROPIC_API_KEY_HERE",
 				"PERPLEXITY_API_KEY": "PERPLEXITY_API_KEY_HERE",
 				"OPENAI_API_KEY": "OPENAI_API_KEY_HERE",
 				"GOOGLE_API_KEY": "GOOGLE_API_KEY_HERE",
 				"XAI_API_KEY": "XAI_API_KEY_HERE",
 				"OPENROUTER_API_KEY": "OPENROUTER_API_KEY_HERE",
 				"MISTRAL_API_KEY": "MISTRAL_API_KEY_HERE",
 				"AZURE_OPENAI_API_KEY": "AZURE_OPENAI_API_KEY_HERE",
 				"OLLAMA_API_KEY": "OLLAMA_API_KEY_HERE",
 				"GITHUB_API_KEY": "GITHUB_API_KEY_HERE"
 			}
 		}
 	}
 }
 ```
 ### CLI Usage: `.env` File
 Create a `.env` file in your project root and include the keys for the providers you plan to use:
 ```java .env lines icon="java"
 # Required API keys for providers configured in .taskmaster/config.json
 ANTHROPIC_API_KEY=sk-ant-api03-your-key-here
 PERPLEXITY_API_KEY=pplx-your-key-here
 # OPENAI_API_KEY=sk-your-key-here
 # GOOGLE_API_KEY=AIzaSy...
 # AZURE_OPENAI_API_KEY=your-azure-openai-api-key-here
 # etc.
 # Optional Endpoint Overrides
 # Use a specific provider's base URL, e.g., for an OpenAI-compatible API
 # OPENAI_BASE_URL=https://api.third-party.com/v1
 #
 # Azure OpenAI Configuration
 # AZURE_OPENAI_ENDPOINT=https://your-resource-name.openai.azure.com/ or https://your-endpoint-name.cognitiveservices.azure.com/openai/deployments
 # OLLAMA_BASE_URL=http://custom-ollama-host:11434/api
 # Google Vertex AI Configuration (Required if using 'vertex' provider)
 # VERTEX_PROJECT_ID=your-gcp-project-id
 ```
 ## What Else Can Be Configured?
 The main configuration file (`.taskmaster/config.json`) allows you to control nearly every aspect of Task Master’s behavior. Here’s a high-level look at what you can customize:
 <Tip>
 You don’t need to configure everything up front. Most settings can be left as defaults or updated later as your workflow evolves.
 </Tip>
 <Accordion title="View Configuration Options">
 ### Models and Providers
 - Role-based model setup: `main`, `research`, `fallback`
 - Provider selection (Anthropic, OpenAI, Perplexity, etc.)
 - Model IDs per role
 - Temperature, max tokens, and other generation settings
 - Custom base URLs for OpenAI-compatible APIs
 ### Global Settings
 - `logLevel`: Logging verbosity
 - `debug`: Enable/disable debug mode
 - `projectName`: Optional name for your project
 - `defaultTag`: Default tag for task grouping
 - `defaultSubtasks`: Number of subtasks to auto-generate
 - `defaultPriority`: Priority level for new tasks
 ### API Endpoint Overrides
 - `ollamaBaseURL`: Custom Ollama server URL
 - `azureBaseURL`: Global Azure endpoint
 - `vertexProjectId`: Google Vertex AI project ID
 - `vertexLocation`: Region for Vertex AI models
 ### Tag and Git Integration
 - Default tag context per project
 - Support for task isolation by tag
 - Manual tag creation from Git branches
 ### State Management
 - Active tag tracking
 - Migration state
 - Last tag switch timestamp
 </Accordion>
 <Note>
 For advanced configuration options and detailed customization, see our [Advanced Configuration Guide](/docs/best-practices/configuration-advanced) page.
 </Note>
--- a/apps/docs/getting-started/quick-start/execute-quick.mdx
+++ b/apps/docs/getting-started/quick-start/execute-quick.mdx
@@ -0,0 +1,77 @@
 ---
 title: Executing Tasks
 sidebarTitle: "Executing Tasks"
 ---
 Now that your tasks are generated and reviewed you are ready to begin executing.
 ## Select the Task to Work on: Next Task
 Task Master has the "next" command to find the next task to work on. You can access it with the following request:
 ```
 What's the next task I should work on? Please consider dependencies and priorities.
 ```
 Alternatively you can use the CLI to show the next task
 ```bash
 task-master next
 ```
 ### Quick Start with `task-master start`
 For immediate task execution, you can use the new `start` command to automatically launch Claude Code with full task context:
 ```bash
 # Start the next available task automatically
 task-master start
 # Or start a specific task
 task-master start 1.2
 ```
 This command will:
 - Find the next available task (if no ID is provided)
 - Update the task status to "in-progress"  
 - Launch Claude Code with comprehensive task context
 - Provide all necessary implementation details and project context
 ## Discuss Task
 When you know what task to work on next you can then start chatting with the agent to make sure it understands the plan of action.
 You can tag relevant files and folders so it knows what context to pull up as it generates its plan. For example:
 ```
 Please review Task 5 and confirm you understand how to execute before beginning. Refer to @models @api and @schema 
 ```
 The agent will begin analyzing the task and files and respond with the steps to complete the task. 
 ## Agent Task execution
 If you agree with the plan of action, tell the agent to get started.
 ```
 You may begin. I believe in you.
 ```
 ## Review and Test
 Once the agent is finished with the task you can refer to the task testing strategy to make sure it was completed correctly.
 ## Update Task Status
 If the task was completed correctly you can update the status to done
 ```
 Please mark Task 5 as done
 ```
 The agent will execute
 ```bash
 task-master set-status --id=5 --status=done
 ```
 ## Rules and Context
 If you ran into problems and had to debug errors you can create new rules as you go. This helps build context on your codebase that helps the creation and execution of future tasks.
 ## On to the Next Task!
 By now you have all you need to get started executing code faster and smarter with Task Master.
 If you have any questions please check out [Frequently Asked Questions](/docs/getting-started/faq)
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