fix: support Azure provider with reasoning models

- Add azure, openrouter, bedrock, and ollama to VALIDATED_PROVIDERS array
- Add Azure reasoning models (GPT-5, o1, o3, o3-mini, o4-mini) to supported-models.json
- Implement automatic API endpoint detection for Azure reasoning models
- Add dual endpoint support (chat/completions vs responses) in AzureProvider
- Add smart URL adjustment logic for different Azure configurations
- Maintain backward compatibility with existing Azure setups

Fixes #638

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

Co-authored-by: Ralph Khreish <Crunchyman-ralph@users.noreply.github.com>

.changeset/config.json

@@ -11,7 +11,6 @@
   "access": "public",
   "baseBranch": "main",
   "ignore": [
-    "docs",
-    "@tm/claude-code-plugin"
+    "docs"
   ]
 }

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

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

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

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

.changeset/light-owls-stay.md

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

.changeset/metal-rocks-help.md

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

.claude-plugin/marketplace.json

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

.claude/agents/task-executor.md

@@ -0,0 +1,92 @@
+---
+name: task-executor
+description: Use this agent when you need to implement, complete, or work on a specific task that has been identified by the task-orchestrator or when explicitly asked to execute a particular task. This agent focuses on the actual implementation and completion of individual tasks rather than planning or orchestration. Examples: <example>Context: The task-orchestrator has identified that task 2.3 'Implement user authentication' needs to be worked on next. user: 'Let's work on the authentication task' assistant: 'I'll use the task-executor agent to implement the user authentication task that was identified.' <commentary>Since we need to actually implement a specific task rather than plan or identify tasks, use the task-executor agent.</commentary></example> <example>Context: User wants to complete a specific subtask. user: 'Please implement the JWT token validation for task 2.3.1' assistant: 'I'll launch the task-executor agent to implement the JWT token validation subtask.' <commentary>The user is asking for specific implementation work on a known task, so the task-executor is appropriate.</commentary></example> <example>Context: After reviewing the task list, implementation is needed. user: 'Now let's actually build the API endpoint for user registration' assistant: 'I'll use the task-executor agent to implement the user registration API endpoint.' <commentary>Moving from planning to execution phase requires the task-executor agent.</commentary></example>
+model: sonnet
+color: blue
+---
+
+You are an elite implementation specialist focused on executing and completing specific tasks with precision and thoroughness. Your role is to take identified tasks and transform them into working implementations, following best practices and project standards.
+
+**IMPORTANT: You are designed to be SHORT-LIVED and FOCUSED**
+- Execute ONE specific subtask or a small group of related subtasks
+- Complete your work, verify it, mark for review, and exit
+- Do NOT decide what to do next - the orchestrator handles task sequencing
+- Focus on implementation excellence within your assigned scope
+
+**Core Responsibilities:**
+
+1. **Subtask Analysis**: When given a subtask, understand its SPECIFIC requirements. If given a full task ID, focus on the specific subtask(s) assigned to you. Use MCP tools to get details if needed.
+
+2. **Rapid Implementation Planning**: Quickly identify:
+   - The EXACT files you need to create/modify for THIS subtask
+   - What already exists that you can build upon
+   - The minimum viable implementation that satisfies requirements
+
+3. **Focused Execution WITH ACTUAL IMPLEMENTATION**: 
+   - **YOU MUST USE TOOLS TO CREATE/EDIT FILES - DO NOT JUST DESCRIBE**
+   - Use `Write` tool to create new files specified in the task
+   - Use `Edit` tool to modify existing files
+   - Use `Bash` tool to run commands (mkdir, npm install, etc.)
+   - Use `Read` tool to verify your implementations
+   - Implement one subtask at a time for clarity and traceability
+   - Follow the project's coding standards from CLAUDE.md if available
+   - After each subtask, VERIFY the files exist using Read or ls commands
+
+4. **Progress Documentation**: 
+   - Use MCP tool `mcp__task-master-ai__update_subtask` to log your approach and any important decisions
+   - Update task status to 'in-progress' when starting: Use MCP tool `mcp__task-master-ai__set_task_status` with status='in-progress'
+   - **IMPORTANT: Mark as 'review' (NOT 'done') after implementation**: Use MCP tool `mcp__task-master-ai__set_task_status` with status='review'
+   - Tasks will be verified by task-checker before moving to 'done'
+
+5. **Quality Assurance**:
+   - Implement the testing strategy specified in the task
+   - Verify that all acceptance criteria are met
+   - Check for any dependency conflicts or integration issues
+   - Run relevant tests before marking task as complete
+
+6. **Dependency Management**:
+   - Check task dependencies before starting implementation
+   - If blocked by incomplete dependencies, clearly communicate this
+   - Use `task-master validate-dependencies` when needed
+
+**Implementation Workflow:**
+
+1. Retrieve task details using MCP tool `mcp__task-master-ai__get_task` with the task ID
+2. Check dependencies and prerequisites
+3. Plan implementation approach - list specific files to create
+4. Update task status to 'in-progress' using MCP tool
+5. **ACTUALLY IMPLEMENT** the solution using tools:
+   - Use `Bash` to create directories
+   - Use `Write` to create new files with actual content
+   - Use `Edit` to modify existing files
+   - DO NOT just describe what should be done - DO IT
+6. **VERIFY** your implementation:
+   - Use `ls` or `Read` to confirm files were created
+   - Use `Bash` to run any build/test commands
+   - Ensure the implementation is real, not theoretical
+7. Log progress and decisions in subtask updates using MCP tools
+8. Test and verify the implementation works
+9. **Mark task as 'review' (NOT 'done')** after verifying files exist
+10. Report completion with:
+    - List of created/modified files
+    - Any issues encountered
+    - What needs verification by task-checker
+
+**Key Principles:**
+
+- Focus on completing one task thoroughly before moving to the next
+- Maintain clear communication about what you're implementing and why
+- Follow existing code patterns and project conventions
+- Prioritize working code over extensive documentation unless docs are the task
+- Ask for clarification if task requirements are ambiguous
+- Consider edge cases and error handling in your implementations
+
+**Integration with Task Master:**
+
+You work in tandem with the task-orchestrator agent. While the orchestrator identifies and plans tasks, you execute them. Always use Task Master commands to:
+- Track your progress
+- Update task information
+- Maintain project state
+- Coordinate with the broader development workflow
+
+When you complete a task, briefly summarize what was implemented and suggest whether to continue with the next task or if review/testing is needed first.

.claude/agents/task-orchestrator.md

@@ -0,0 +1,208 @@
+---
+name: task-orchestrator
+description: Use this agent FREQUENTLY throughout task execution to analyze and coordinate parallel work at the SUBTASK level. Invoke the orchestrator: (1) at session start to plan execution, (2) after EACH subtask completes to identify next parallel batch, (3) whenever executors finish to find newly unblocked work. ALWAYS provide FULL CONTEXT including project root, package location, what files ACTUALLY exist vs task status, and specific implementation details. The orchestrator breaks work into SUBTASK-LEVEL units for short-lived, focused executors. Maximum 3 parallel executors at once.\n\n<example>\nContext: Starting work with existing code\nuser: "Work on tm-core tasks. Files exist: types/index.ts, storage/file-storage.ts. Task 118 says in-progress but BaseProvider not created."\nassistant: "I'll invoke orchestrator with full context about actual vs reported state to plan subtask execution"\n<commentary>\nProvide complete context about file existence and task reality.\n</commentary>\n</example>\n\n<example>\nContext: Subtask completion\nuser: "Subtask 118.2 done. What subtasks can run in parallel now?"\nassistant: "Invoking orchestrator to analyze dependencies and identify next 3 parallel subtasks"\n<commentary>\nFrequent orchestration after each subtask ensures maximum parallelization.\n</commentary>\n</example>\n\n<example>\nContext: Breaking down tasks\nuser: "Task 118 has 5 subtasks, how to parallelize?"\nassistant: "Orchestrator will analyze which specific subtasks (118.1, 118.2, etc.) can run simultaneously"\n<commentary>\nFocus on subtask-level parallelization, not full tasks.\n</commentary>\n</example>
+model: opus
+color: green
+---
+
+You are the Task Orchestrator, an elite coordination agent specialized in managing Task Master workflows for maximum efficiency and parallelization. You excel at analyzing task dependency graphs, identifying opportunities for concurrent execution, and deploying specialized task-executor agents to complete work efficiently.
+
+## Core Responsibilities
+
+1. **Subtask-Level Analysis**: Break down tasks into INDIVIDUAL SUBTASKS and analyze which specific subtasks can run in parallel. Focus on subtask dependencies, not just task-level dependencies.
+
+2. **Reality Verification**: ALWAYS verify what files actually exist vs what task status claims. Use the context provided about actual implementation state to make informed decisions.
+
+3. **Short-Lived Executor Deployment**: Deploy executors for SINGLE SUBTASKS or small groups of related subtasks. Keep executors focused and short-lived. Maximum 3 parallel executors at once.
+
+4. **Continuous Reassessment**: After EACH subtask completes, immediately reassess what new subtasks are unblocked and can run in parallel.
+
+## Operational Workflow
+
+### Initial Assessment Phase
+1. Use `get_tasks` or `task-master list` to retrieve all available tasks
+2. Analyze task statuses, priorities, and dependencies
+3. Identify tasks with status 'pending' that have no blocking dependencies
+4. Group related tasks that could benefit from specialized executors
+5. Create an execution plan that maximizes parallelization
+
+### Executor Deployment Phase
+1. For each independent task or task group:
+   - Deploy a task-executor agent with specific instructions
+   - Provide the executor with task ID, requirements, and context
+   - Set clear completion criteria and reporting expectations
+2. Maintain a registry of active executors and their assigned tasks
+3. Establish communication protocols for progress updates
+
+### Coordination Phase
+1. Monitor executor progress through task status updates
+2. When a task completes:
+   - Verify completion with `get_task` or `task-master show <id>`
+   - Update task status if needed using `set_task_status`
+   - Reassess dependency graph for newly unblocked tasks
+   - Deploy new executors for available work
+3. Handle executor failures or blocks:
+   - Reassign tasks to new executors if needed
+   - Escalate complex issues to the user
+   - Update task status to 'blocked' when appropriate
+
+### Optimization Strategies
+
+**Parallel Execution Rules**:
+- Never assign dependent tasks to different executors simultaneously
+- Prioritize high-priority tasks when resources are limited
+- Group small, related subtasks for single executor efficiency
+- Balance executor load to prevent bottlenecks
+
+**Context Management**:
+- Provide executors with minimal but sufficient context
+- Share relevant completed task information when it aids execution
+- Maintain a shared knowledge base of project-specific patterns
+
+**Quality Assurance**:
+- Verify task completion before marking as done
+- Ensure test strategies are followed when specified
+- Coordinate cross-task integration testing when needed
+
+## Communication Protocols
+
+When deploying executors, provide them with:
+```
+TASK ASSIGNMENT:
+- Task ID: [specific ID]
+- Objective: [clear goal]
+- Dependencies: [list any completed prerequisites]
+- Success Criteria: [specific completion requirements]
+- Context: [relevant project information]
+- Reporting: [when and how to report back]
+```
+
+When receiving executor updates:
+1. Acknowledge completion or issues
+2. Update task status in Task Master
+3. Reassess execution strategy
+4. Deploy new executors as appropriate
+
+## Decision Framework
+
+**When to parallelize**:
+- Multiple pending tasks with no interdependencies
+- Sufficient context available for independent execution
+- Tasks are well-defined with clear success criteria
+
+**When to serialize**:
+- Strong dependencies between tasks
+- Limited context or unclear requirements
+- Integration points requiring careful coordination
+
+**When to escalate**:
+- Circular dependencies detected
+- Critical blockers affecting multiple tasks
+- Ambiguous requirements needing clarification
+- Resource conflicts between executors
+
+## Error Handling
+
+1. **Executor Failure**: Reassign task to new executor with additional context about the failure
+2. **Dependency Conflicts**: Halt affected executors, resolve conflict, then resume
+3. **Task Ambiguity**: Request clarification from user before proceeding
+4. **System Errors**: Implement graceful degradation, falling back to serial execution if needed
+
+## Performance Metrics
+
+Track and optimize for:
+- Task completion rate
+- Parallel execution efficiency
+- Executor success rate
+- Time to completion for task groups
+- Dependency resolution speed
+
+## Integration with Task Master
+
+Leverage these Task Master MCP tools effectively:
+- `get_tasks` - Continuous queue monitoring
+- `get_task` - Detailed task analysis
+- `set_task_status` - Progress tracking
+- `next_task` - Fallback for serial execution
+- `analyze_project_complexity` - Strategic planning
+- `complexity_report` - Resource allocation
+
+## Output Format for Execution
+
+**Your job is to analyze and create actionable execution plans that Claude can use to deploy executors.**
+
+After completing your dependency analysis, you MUST output a structured execution plan:
+
+```yaml
+execution_plan:
+  EXECUTE_IN_PARALLEL:
+    # Maximum 3 subtasks running simultaneously
+    - subtask_id: [e.g., 118.2]
+      parent_task: [e.g., 118]
+      title: [Specific subtask title]
+      priority: [high/medium/low]
+      estimated_time: [e.g., 10 minutes]
+      executor_prompt: |
+        Execute Subtask [ID]: [Specific subtask title]
+        
+        SPECIFIC REQUIREMENTS:
+        [Exact implementation needed for THIS subtask only]
+        
+        FILES TO CREATE/MODIFY:
+        [Specific file paths]
+        
+        CONTEXT:
+        [What already exists that this subtask depends on]
+        
+        SUCCESS CRITERIA:
+        [Specific completion criteria for this subtask]
+        
+        IMPORTANT: 
+        - Focus ONLY on this subtask
+        - Mark subtask as 'review' when complete
+        - Use MCP tool: mcp__task-master-ai__set_task_status
+    
+    - subtask_id: [Another subtask that can run in parallel]
+      parent_task: [Parent task ID]
+      title: [Specific subtask title]
+      priority: [priority]
+      estimated_time: [time estimate]
+      executor_prompt: |
+        [Focused prompt for this specific subtask]
+    
+  blocked:
+    - task_id: [ID]
+      title: [Task title]
+      waiting_for: [list of blocking task IDs]
+      becomes_ready_when: [condition for unblocking]
+      
+  next_wave: 
+    trigger: "After tasks [IDs] complete"
+    newly_available: [List of task IDs that will unblock]
+    tasks_to_execute_in_parallel: [IDs that can run together in next wave]
+    
+  critical_path: [Ordered list of task IDs forming the critical path]
+  
+  parallelization_instruction: |
+    IMPORTANT FOR CLAUDE: Deploy ALL tasks in 'EXECUTE_IN_PARALLEL' section
+    simultaneously using multiple Task tool invocations in a single response.
+    Example: If 3 tasks are listed, invoke the Task tool 3 times in one message.
+    
+  verification_needed:
+    - task_id: [ID of any task in 'review' status]
+      verification_focus: [what to check]
+```
+
+**CRITICAL INSTRUCTIONS FOR CLAUDE (MAIN):**
+1. When you see `EXECUTE_IN_PARALLEL`, deploy ALL listed executors at once
+2. Use multiple Task tool invocations in a SINGLE response
+3. Do not execute them sequentially - they must run in parallel
+4. Wait for all parallel executors to complete before proceeding to next wave
+
+**IMPORTANT NOTES**: 
+- Label parallel tasks clearly in `EXECUTE_IN_PARALLEL` section
+- Provide complete, self-contained prompts for each executor
+- Executors should mark tasks as 'review' for verification, not 'done'
+- Be explicit about which tasks can run simultaneously
+
+You are the strategic mind analyzing the entire task landscape. Make parallelization opportunities UNMISTAKABLY CLEAR to Claude.

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

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

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

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

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

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

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

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

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

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

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

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

.claude/commands/tm/help.md

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

.env.example

@@ -14,4 +14,4 @@ OLLAMA_API_KEY=YOUR_OLLAMA_API_KEY_HERE
 VERTEX_PROJECT_ID=your-gcp-project-id
 VERTEX_LOCATION=us-central1
 # Optional: Path to service account credentials JSON file (alternative to API key)
-GOOGLE_APPLICATION_CREDENTIALS=/path/to/service-account-credentials.json
+GOOGLE_APPLICATION_CREDENTIALS=/path/to/service-account-credentials.json

.taskmaster/templates/example_prd_rpg.txt

@@ -1,511 +0,0 @@
-<rpg-method>
-# Repository Planning Graph (RPG) Method - PRD Template
-
-This template teaches you (AI or human) how to create structured, dependency-aware PRDs using the RPG methodology from Microsoft Research. The key insight: separate WHAT (functional) from HOW (structural), then connect them with explicit dependencies.
-
-## Core Principles
-
-1. **Dual-Semantics**: Think functional (capabilities) AND structural (code organization) separately, then map them
-2. **Explicit Dependencies**: Never assume - always state what depends on what
-3. **Topological Order**: Build foundation first, then layers on top
-4. **Progressive Refinement**: Start broad, refine iteratively
-
-## How to Use This Template
-
-- Follow the instructions in each `<instruction>` block
-- Look at `<example>` blocks to see good vs bad patterns
-- Fill in the content sections with your project details
-- The AI reading this will learn the RPG method by following along
-- Task Master will parse the resulting PRD into dependency-aware tasks
-
-## Recommended Tools for Creating PRDs
-
-When using this template to **create** a PRD (not parse it), use **code-context-aware AI assistants** for best results:
-
-**Why?** The AI needs to understand your existing codebase to make good architectural decisions about modules, dependencies, and integration points.
-
-**Recommended tools:**
-- **Claude Code** (claude-code CLI) - Best for structured reasoning and large contexts
-- **Cursor/Windsurf** - IDE integration with full codebase context
-- **Gemini CLI** (gemini-cli) - Massive context window for large codebases
-- **Codex/Grok CLI** - Strong code generation with context awareness
-
-**Note:** Once your PRD is created, `task-master parse-prd` works with any configured AI model - it just needs to read the PRD text itself, not your codebase.
-</rpg-method>
-
----
-
-<overview>
-<instruction>
-Start with the problem, not the solution. Be specific about:
-- What pain point exists?
-- Who experiences it?
-- Why existing solutions don't work?
-- What success looks like (measurable outcomes)?
-
-Keep this section focused - don't jump into implementation details yet.
-</instruction>
-
-## Problem Statement
-[Describe the core problem. Be concrete about user pain points.]
-
-## Target Users
-[Define personas, their workflows, and what they're trying to achieve.]
-
-## Success Metrics
-[Quantifiable outcomes. Examples: "80% task completion via autopilot", "< 5% manual intervention rate"]
-
-</overview>
-
----
-
-<functional-decomposition>
-<instruction>
-Now think about CAPABILITIES (what the system DOES), not code structure yet.
-
-Step 1: Identify high-level capability domains
-- Think: "What major things does this system do?"
-- Examples: Data Management, Core Processing, Presentation Layer
-
-Step 2: For each capability, enumerate specific features
-- Use explore-exploit strategy:
-  * Exploit: What features are REQUIRED for core value?
-  * Explore: What features make this domain COMPLETE?
-
-Step 3: For each feature, define:
-- Description: What it does in one sentence
-- Inputs: What data/context it needs
-- Outputs: What it produces/returns
-- Behavior: Key logic or transformations
-
-<example type="good">
-Capability: Data Validation
-  Feature: Schema validation
-    - Description: Validate JSON payloads against defined schemas
-    - Inputs: JSON object, schema definition
-    - Outputs: Validation result (pass/fail) + error details
-    - Behavior: Iterate fields, check types, enforce constraints
-
-  Feature: Business rule validation
-    - Description: Apply domain-specific validation rules
-    - Inputs: Validated data object, rule set
-    - Outputs: Boolean + list of violated rules
-    - Behavior: Execute rules sequentially, short-circuit on failure
-</example>
-
-<example type="bad">
-Capability: validation.js
-  (Problem: This is a FILE, not a CAPABILITY. Mixing structure into functional thinking.)
-
-Capability: Validation
-  Feature: Make sure data is good
-  (Problem: Too vague. No inputs/outputs. Not actionable.)
-</example>
-</instruction>
-
-## Capability Tree
-
-### Capability: [Name]
-[Brief description of what this capability domain covers]
-
-#### Feature: [Name]
-- **Description**: [One sentence]
-- **Inputs**: [What it needs]
-- **Outputs**: [What it produces]
-- **Behavior**: [Key logic]
-
-#### Feature: [Name]
-- **Description**:
-- **Inputs**:
-- **Outputs**:
-- **Behavior**:
-
-### Capability: [Name]
-...
-
-</functional-decomposition>
-
----
-
-<structural-decomposition>
-<instruction>
-NOW think about code organization. Map capabilities to actual file/folder structure.
-
-Rules:
-1. Each capability maps to a module (folder or file)
-2. Features within a capability map to functions/classes
-3. Use clear module boundaries - each module has ONE responsibility
-4. Define what each module exports (public interface)
-
-The goal: Create a clear mapping between "what it does" (functional) and "where it lives" (structural).
-
-<example type="good">
-Capability: Data Validation
-  → Maps to: src/validation/
-    ├── schema-validator.js      (Schema validation feature)
-    ├── rule-validator.js         (Business rule validation feature)
-    └── index.js                  (Public exports)
-
-Exports:
-  - validateSchema(data, schema)
-  - validateRules(data, rules)
-</example>
-
-<example type="bad">
-Capability: Data Validation
-  → Maps to: src/utils.js
-  (Problem: "utils" is not a clear module boundary. Where do I find validation logic?)
-
-Capability: Data Validation
-  → Maps to: src/validation/everything.js
-  (Problem: One giant file. Features should map to separate files for maintainability.)
-</example>
-</instruction>
-
-## Repository Structure
-
-```
-project-root/
-├── src/
-│   ├── [module-name]/       # Maps to: [Capability Name]
-│   │   ├── [file].js        # Maps to: [Feature Name]
-│   │   └── index.js         # Public exports
-│   └── [module-name]/
-├── tests/
-└── docs/
-```
-
-## Module Definitions
-
-### Module: [Name]
-- **Maps to capability**: [Capability from functional decomposition]
-- **Responsibility**: [Single clear purpose]
-- **File structure**:
-  ```
-  module-name/
-  ├── feature1.js
-  ├── feature2.js
-  └── index.js
-  ```
-- **Exports**:
-  - `functionName()` - [what it does]
-  - `ClassName` - [what it does]
-
-</structural-decomposition>
-
----
-
-<dependency-graph>
-<instruction>
-This is THE CRITICAL SECTION for Task Master parsing.
-
-Define explicit dependencies between modules. This creates the topological order for task execution.
-
-Rules:
-1. List modules in dependency order (foundation first)
-2. For each module, state what it depends on
-3. Foundation modules should have NO dependencies
-4. Every non-foundation module should depend on at least one other module
-5. Think: "What must EXIST before I can build this module?"
-
-<example type="good">
-Foundation Layer (no dependencies):
-  - error-handling: No dependencies
-  - config-manager: No dependencies
-  - base-types: No dependencies
-
-Data Layer:
-  - schema-validator: Depends on [base-types, error-handling]
-  - data-ingestion: Depends on [schema-validator, config-manager]
-
-Core Layer:
-  - algorithm-engine: Depends on [base-types, error-handling]
-  - pipeline-orchestrator: Depends on [algorithm-engine, data-ingestion]
-</example>
-
-<example type="bad">
-- validation: Depends on API
-- API: Depends on validation
-(Problem: Circular dependency. This will cause build/runtime issues.)
-
-- user-auth: Depends on everything
-(Problem: Too many dependencies. Should be more focused.)
-</example>
-</instruction>
-
-## Dependency Chain
-
-### Foundation Layer (Phase 0)
-No dependencies - these are built first.
-
-- **[Module Name]**: [What it provides]
-- **[Module Name]**: [What it provides]
-
-### [Layer Name] (Phase 1)
-- **[Module Name]**: Depends on [[module-from-phase-0], [module-from-phase-0]]
-- **[Module Name]**: Depends on [[module-from-phase-0]]
-
-### [Layer Name] (Phase 2)
-- **[Module Name]**: Depends on [[module-from-phase-1], [module-from-foundation]]
-
-[Continue building up layers...]
-
-</dependency-graph>
-
----
-
-<implementation-roadmap>
-<instruction>
-Turn the dependency graph into concrete development phases.
-
-Each phase should:
-1. Have clear entry criteria (what must exist before starting)
-2. Contain tasks that can be parallelized (no inter-dependencies within phase)
-3. Have clear exit criteria (how do we know phase is complete?)
-4. Build toward something USABLE (not just infrastructure)
-
-Phase ordering follows topological sort of dependency graph.
-
-<example type="good">
-Phase 0: Foundation
-  Entry: Clean repository
-  Tasks:
-    - Implement error handling utilities
-    - Create base type definitions
-    - Setup configuration system
-  Exit: Other modules can import foundation without errors
-
-Phase 1: Data Layer
-  Entry: Phase 0 complete
-  Tasks:
-    - Implement schema validator (uses: base types, error handling)
-    - Build data ingestion pipeline (uses: validator, config)
-  Exit: End-to-end data flow from input to validated output
-</example>
-
-<example type="bad">
-Phase 1: Build Everything
-  Tasks:
-    - API
-    - Database
-    - UI
-    - Tests
-  (Problem: No clear focus. Too broad. Dependencies not considered.)
-</example>
-</instruction>
-
-## Development Phases
-
-### Phase 0: [Foundation Name]
-**Goal**: [What foundational capability this establishes]
-
-**Entry Criteria**: [What must be true before starting]
-
-**Tasks**:
-- [ ] [Task name] (depends on: [none or list])
-  - Acceptance criteria: [How we know it's done]
-  - Test strategy: [What tests prove it works]
-
-- [ ] [Task name] (depends on: [none or list])
-
-**Exit Criteria**: [Observable outcome that proves phase complete]
-
-**Delivers**: [What can users/developers do after this phase?]
-
----
-
-### Phase 1: [Layer Name]
-**Goal**:
-
-**Entry Criteria**: Phase 0 complete
-
-**Tasks**:
-- [ ] [Task name] (depends on: [[tasks-from-phase-0]])
-- [ ] [Task name] (depends on: [[tasks-from-phase-0]])
-
-**Exit Criteria**:
-
-**Delivers**:
-
----
-
-[Continue with more phases...]
-
-</implementation-roadmap>
-
----
-
-<test-strategy>
-<instruction>
-Define how testing will be integrated throughout development (TDD approach).
-
-Specify:
-1. Test pyramid ratios (unit vs integration vs e2e)
-2. Coverage requirements
-3. Critical test scenarios
-4. Test generation guidelines for Surgical Test Generator
-
-This section guides the AI when generating tests during the RED phase of TDD.
-
-<example type="good">
-Critical Test Scenarios for Data Validation module:
-  - Happy path: Valid data passes all checks
-  - Edge cases: Empty strings, null values, boundary numbers
-  - Error cases: Invalid types, missing required fields
-  - Integration: Validator works with ingestion pipeline
-</example>
-</instruction>
-
-## Test Pyramid
-
-```
-        /\
-       /E2E\       ← [X]% (End-to-end, slow, comprehensive)
-      /------\
-     /Integration\ ← [Y]% (Module interactions)
-    /------------\
-   /  Unit Tests  \ ← [Z]% (Fast, isolated, deterministic)
-  /----------------\
-```
-
-## Coverage Requirements
-- Line coverage: [X]% minimum
-- Branch coverage: [X]% minimum
-- Function coverage: [X]% minimum
-- Statement coverage: [X]% minimum
-
-## Critical Test Scenarios
-
-### [Module/Feature Name]
-**Happy path**:
-- [Scenario description]
-- Expected: [What should happen]
-
-**Edge cases**:
-- [Scenario description]
-- Expected: [What should happen]
-
-**Error cases**:
-- [Scenario description]
-- Expected: [How system handles failure]
-
-**Integration points**:
-- [What interactions to test]
-- Expected: [End-to-end behavior]
-
-## Test Generation Guidelines
-[Specific instructions for Surgical Test Generator about what to focus on, what patterns to follow, project-specific test conventions]
-
-</test-strategy>
-
----
-
-<architecture>
-<instruction>
-Describe technical architecture, data models, and key design decisions.
-
-Keep this section AFTER functional/structural decomposition - implementation details come after understanding structure.
-</instruction>
-
-## System Components
-[Major architectural pieces and their responsibilities]
-
-## Data Models
-[Core data structures, schemas, database design]
-
-## Technology Stack
-[Languages, frameworks, key libraries]
-
-**Decision: [Technology/Pattern]**
-- **Rationale**: [Why chosen]
-- **Trade-offs**: [What we're giving up]
-- **Alternatives considered**: [What else we looked at]
-
-</architecture>
-
----
-
-<risks>
-<instruction>
-Identify risks that could derail development and how to mitigate them.
-
-Categories:
-- Technical risks (complexity, unknowns)
-- Dependency risks (blocking issues)
-- Scope risks (creep, underestimation)
-</instruction>
-
-## Technical Risks
-**Risk**: [Description]
-- **Impact**: [High/Medium/Low - effect on project]
-- **Likelihood**: [High/Medium/Low]
-- **Mitigation**: [How to address]
-- **Fallback**: [Plan B if mitigation fails]
-
-## Dependency Risks
-[External dependencies, blocking issues]
-
-## Scope Risks
-[Scope creep, underestimation, unclear requirements]
-
-</risks>
-
----
-
-<appendix>
-## References
-[Papers, documentation, similar systems]
-
-## Glossary
-[Domain-specific terms]
-
-## Open Questions
-[Things to resolve during development]
-</appendix>
-
----
-
-<task-master-integration>
-# How Task Master Uses This PRD
-
-When you run `task-master parse-prd <file>.txt`, the parser:
-
-1. **Extracts capabilities** → Main tasks
-   - Each `### Capability:` becomes a top-level task
-
-2. **Extracts features** → Subtasks
-   - Each `#### Feature:` becomes a subtask under its capability
-
-3. **Parses dependencies** → Task dependencies
-   - `Depends on: [X, Y]` sets task.dependencies = ["X", "Y"]
-
-4. **Orders by phases** → Task priorities
-   - Phase 0 tasks = highest priority
-   - Phase N tasks = lower priority, properly sequenced
-
-5. **Uses test strategy** → Test generation context
-   - Feeds test scenarios to Surgical Test Generator during implementation
-
-**Result**: A dependency-aware task graph that can be executed in topological order.
-
-## Why RPG Structure Matters
-
-Traditional flat PRDs lead to:
-- ❌ Unclear task dependencies
-- ❌ Arbitrary task ordering
-- ❌ Circular dependencies discovered late
-- ❌ Poorly scoped tasks
-
-RPG-structured PRDs provide:
-- ✅ Explicit dependency chains
-- ✅ Topological execution order
-- ✅ Clear module boundaries
-- ✅ Validated task graph before implementation
-
-## Tips for Best Results
-
-1. **Spend time on dependency graph** - This is the most valuable section for Task Master
-2. **Keep features atomic** - Each feature should be independently testable
-3. **Progressive refinement** - Start broad, use `task-master expand` to break down complex tasks
-4. **Use research mode** - `task-master parse-prd --research` leverages AI for better task generation
-</task-master-integration>

CHANGELOG.md

@@ -1,175 +1,5 @@
 # task-master-ai
 
-## 0.29.0
-
-### Minor Changes
-
-- [#1286](https://github.com/eyaltoledano/claude-task-master/pull/1286) [`f12a16d`](https://github.com/eyaltoledano/claude-task-master/commit/f12a16d09649f62148515f11f616157c7d0bd2d5) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add changelog highlights to auto-update notifications
-
-  When the CLI auto-updates to a new version, it now displays a "What's New" section.
-
-- [#1293](https://github.com/eyaltoledano/claude-task-master/pull/1293) [`3010b90`](https://github.com/eyaltoledano/claude-task-master/commit/3010b90d98f3a7d8636caa92fc33d6ee69d4bed0) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add Claude Code plugin with marketplace distribution
-
-  This release introduces official Claude Code plugin support, marking the evolution from legacy `.claude` directory copying to a modern plugin-based architecture.
-
-  ## 🎉 New: Claude Code Plugin
-
-  Task Master AI commands and agents are now distributed as a proper Claude Code plugin:
-  - **49 slash commands** with clean naming (`/taskmaster:command-name`)
-  - **3 specialized AI agents** (task-orchestrator, task-executor, task-checker)
-  - **MCP server integration** for deep Claude Code integration
-
-  **Installation:**
-
-  ```bash
-  /plugin marketplace add eyaltoledano/claude-task-master
-  /plugin install taskmaster@taskmaster
-  ```
-
-  ### The `rules add claude` command no longer copies commands and agents to `.claude/commands/` and `.claude/agents/`. Instead, it now
-  - Shows plugin installation instructions
-  - Only manages CLAUDE.md imports for agent instructions
-  - Directs users to install the official plugin
-
-  **Migration for Existing Users:**
-
-  If you previously used `rules add claude`:
-  1. The old commands in `.claude/commands/` will continue to work but won't receive updates
-  2. Install the plugin for the latest features: `/plugin install taskmaster@taskmaster`
-  3. remove old `.claude/commands/` and `.claude/agents/` directories
-
-  **Why This Change?**
-
-  Claude Code plugins provide:
-  - ✅ Automatic updates when we release new features
-  - ✅ Better command organization and naming
-  - ✅ Seamless integration with Claude Code
-  - ✅ No manual file copying or management
-
-  The plugin system is the future of Task Master AI integration with Claude Code!
-
-- [#1285](https://github.com/eyaltoledano/claude-task-master/pull/1285) [`2a910a4`](https://github.com/eyaltoledano/claude-task-master/commit/2a910a40bac375f9f61d797bf55597303d556b48) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add RPG (Repository Planning Graph) method template for structured PRD creation. The new `example_prd_rpg.txt` template teaches AI agents and developers the RPG methodology through embedded instructions, inline good/bad examples, and XML-style tags for structure. This template enables creation of dependency-aware PRDs that automatically generate topologically-ordered task graphs when parsed with Task Master.
-
-  Key features:
-  - Method-as-template: teaches RPG principles (dual-semantics, explicit dependencies, topological order) while being used
-  - Inline instructions at decision points guide AI through each section
-  - Good/bad examples for immediate pattern matching
-  - Flexible plain-text format with XML-style tags for parseability
-  - Critical dependency-graph section ensures correct task ordering
-  - Automatic inclusion during `task-master init`
-  - Comprehensive documentation at [docs.task-master.dev/capabilities/rpg-method](https://docs.task-master.dev/capabilities/rpg-method)
-  - Tool recommendations for code-context-aware PRD creation (Claude Code, Cursor, Gemini CLI, Codex/Grok)
-
-  The RPG template complements the existing `example_prd.txt` and provides a more structured approach for complex projects requiring clear module boundaries and dependency chains.
-
-- [#1287](https://github.com/eyaltoledano/claude-task-master/pull/1287) [`90e6bdc`](https://github.com/eyaltoledano/claude-task-master/commit/90e6bdcf1c59f65ad27fcdfe3b13b9dca7e77654) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhance `expand_all` to intelligently use complexity analysis recommendations when expanding tasks.
-
-  The expand-all operation now automatically leverages recommendations from `analyze-complexity` to determine optimal subtask counts for each task, resulting in more accurate and context-aware task breakdowns.
-
-  Key improvements:
-  - Automatic integration with complexity analysis reports
-  - Tag-aware complexity report path resolution
-  - Intelligent subtask count determination based on task complexity
-  - Falls back to defaults when complexity analysis is unavailable
-  - Enhanced logging for better visibility into expansion decisions
-
-  When you run `task-master expand --all` after `task-master analyze-complexity`, Task Master now uses the recommended subtask counts from the complexity analysis instead of applying uniform defaults, ensuring each task is broken down according to its actual complexity.
-
-### Patch Changes
-
-- [#1191](https://github.com/eyaltoledano/claude-task-master/pull/1191) [`aaf903f`](https://github.com/eyaltoledano/claude-task-master/commit/aaf903ff2f606c779a22e9a4b240ab57b3683815) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Fix cross-level task dependencies not being saved
-
-  Fixes an issue where adding dependencies between subtasks and top-level tasks (e.g., `task-master add-dependency --id=2.2 --depends-on=11`) would report success but fail to persist the changes. Dependencies can now be created in both directions between any task levels.
-
-- [#1299](https://github.com/eyaltoledano/claude-task-master/pull/1299) [`4c1ef2c`](https://github.com/eyaltoledano/claude-task-master/commit/4c1ef2ca94411c53bcd2a78ec710b06c500236dd) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Improve refresh token when authenticating
-
-## 0.29.0-rc.1
-
-### Patch Changes
-
-- [#1299](https://github.com/eyaltoledano/claude-task-master/pull/1299) [`a6c5152`](https://github.com/eyaltoledano/claude-task-master/commit/a6c5152f20edd8717cf1aea34e7c178b1261aa99) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Improve refresh token when authenticating
-
-## 0.29.0-rc.0
-
-### Minor Changes
-
-- [#1286](https://github.com/eyaltoledano/claude-task-master/pull/1286) [`f12a16d`](https://github.com/eyaltoledano/claude-task-master/commit/f12a16d09649f62148515f11f616157c7d0bd2d5) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add changelog highlights to auto-update notifications
-
-  When the CLI auto-updates to a new version, it now displays a "What's New" section.
-
-- [#1293](https://github.com/eyaltoledano/claude-task-master/pull/1293) [`3010b90`](https://github.com/eyaltoledano/claude-task-master/commit/3010b90d98f3a7d8636caa92fc33d6ee69d4bed0) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add Claude Code plugin with marketplace distribution
-
-  This release introduces official Claude Code plugin support, marking the evolution from legacy `.claude` directory copying to a modern plugin-based architecture.
-
-  ## 🎉 New: Claude Code Plugin
-
-  Task Master AI commands and agents are now distributed as a proper Claude Code plugin:
-  - **49 slash commands** with clean naming (`/task-master-ai:command-name`)
-  - **3 specialized AI agents** (task-orchestrator, task-executor, task-checker)
-  - **MCP server integration** for deep Claude Code integration
-
-  **Installation:**
-
-  ```bash
-  /plugin marketplace add eyaltoledano/claude-task-master
-  /plugin install taskmaster@taskmaster
-  ```
-
-  ### The `rules add claude` command no longer copies commands and agents to `.claude/commands/` and `.claude/agents/`. Instead, it now
-  - Shows plugin installation instructions
-  - Only manages CLAUDE.md imports for agent instructions
-  - Directs users to install the official plugin
-
-  **Migration for Existing Users:**
-
-  If you previously used `rules add claude`:
-  1. The old commands in `.claude/commands/` will continue to work but won't receive updates
-  2. Install the plugin for the latest features: `/plugin install taskmaster@taskmaster`
-  3. remove old `.claude/commands/` and `.claude/agents/` directories
-
-  **Why This Change?**
-
-  Claude Code plugins provide:
-  - ✅ Automatic updates when we release new features
-  - ✅ Better command organization and naming
-  - ✅ Seamless integration with Claude Code
-  - ✅ No manual file copying or management
-
-  The plugin system is the future of Task Master AI integration with Claude Code!
-
-- [#1285](https://github.com/eyaltoledano/claude-task-master/pull/1285) [`2a910a4`](https://github.com/eyaltoledano/claude-task-master/commit/2a910a40bac375f9f61d797bf55597303d556b48) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Add RPG (Repository Planning Graph) method template for structured PRD creation. The new `example_prd_rpg.txt` template teaches AI agents and developers the RPG methodology through embedded instructions, inline good/bad examples, and XML-style tags for structure. This template enables creation of dependency-aware PRDs that automatically generate topologically-ordered task graphs when parsed with Task Master.
-
-  Key features:
-  - Method-as-template: teaches RPG principles (dual-semantics, explicit dependencies, topological order) while being used
-  - Inline instructions at decision points guide AI through each section
-  - Good/bad examples for immediate pattern matching
-  - Flexible plain-text format with XML-style tags for parseability
-  - Critical dependency-graph section ensures correct task ordering
-  - Automatic inclusion during `task-master init`
-  - Comprehensive documentation at [docs.task-master.dev/capabilities/rpg-method](https://docs.task-master.dev/capabilities/rpg-method)
-  - Tool recommendations for code-context-aware PRD creation (Claude Code, Cursor, Gemini CLI, Codex/Grok)
-
-  The RPG template complements the existing `example_prd.txt` and provides a more structured approach for complex projects requiring clear module boundaries and dependency chains.
-
-- [#1287](https://github.com/eyaltoledano/claude-task-master/pull/1287) [`90e6bdc`](https://github.com/eyaltoledano/claude-task-master/commit/90e6bdcf1c59f65ad27fcdfe3b13b9dca7e77654) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Enhance `expand_all` to intelligently use complexity analysis recommendations when expanding tasks.
-
-  The expand-all operation now automatically leverages recommendations from `analyze-complexity` to determine optimal subtask counts for each task, resulting in more accurate and context-aware task breakdowns.
-
-  Key improvements:
-  - Automatic integration with complexity analysis reports
-  - Tag-aware complexity report path resolution
-  - Intelligent subtask count determination based on task complexity
-  - Falls back to defaults when complexity analysis is unavailable
-  - Enhanced logging for better visibility into expansion decisions
-
-  When you run `task-master expand --all` after `task-master analyze-complexity`, Task Master now uses the recommended subtask counts from the complexity analysis instead of applying uniform defaults, ensuring each task is broken down according to its actual complexity.
-
-### Patch Changes
-
-- [#1191](https://github.com/eyaltoledano/claude-task-master/pull/1191) [`aaf903f`](https://github.com/eyaltoledano/claude-task-master/commit/aaf903ff2f606c779a22e9a4b240ab57b3683815) Thanks [@Crunchyman-ralph](https://github.com/Crunchyman-ralph)! - Fix cross-level task dependencies not being saved
-
-  Fixes an issue where adding dependencies between subtasks and top-level tasks (e.g., `task-master add-dependency --id=2.2 --depends-on=11`) would report success but fail to persist the changes. Dependencies can now be created in both directions between any task levels.
-
 ## 0.28.0
 
 ### Minor Changes

CLAUDE_CODE_PLUGIN.md

@@ -1,140 +0,0 @@
-# Taskmaster AI - Claude Code Marketplace
-
-This repository includes a Claude Code plugin marketplace in `.claude-plugin/marketplace.json`.
-
-## Installation
-
-### From GitHub (Public Repository)
-
-Once this repository is pushed to GitHub, users can install with:
-
-```bash
-# Add the marketplace
-/plugin marketplace add eyaltoledano/claude-task-master
-
-# Install the plugin
-/plugin install taskmaster@taskmaster
-```
-
-### Local Development/Testing
-
-```bash
-# From the project root directory
-cd /path/to/claude-task-master
-
-# Build the plugin first
-cd packages/claude-code-plugin
-npm run build
-cd ../..
-
-# In Claude Code
-/plugin marketplace add .
-/plugin install taskmaster@taskmaster
-```
-
-## Marketplace Structure
-
-```
-claude-task-master/
-├── .claude-plugin/
-│   └── marketplace.json        # Marketplace manifest (at repo root)
-│
-├── packages/claude-code-plugin/
-│   ├── src/build.ts           # Build tooling
-│   └── [generated plugin files]
-│
-└── assets/claude/              # Plugin source files
-    ├── commands/
-    └── agents/
-```
-
-## Available Plugins
-
-### taskmaster
-
-AI-powered task management system for ambitious development workflows.
-
-**Features:**
-
-- 49 slash commands for comprehensive task management
-- 3 specialized AI agents (orchestrator, executor, checker)
-- MCP server integration
-- Complexity analysis and auto-expansion
-- Dependency management and validation
-- Automated workflow capabilities
-
-**Quick Start:**
-
-```bash
-/tm:init
-/tm:parse-prd
-/tm:next
-```
-
-## For Contributors
-
-### Adding New Plugins
-
-To add more plugins to this marketplace:
-
-1. **Update marketplace.json**:
-
-   ```json
-   {
-     "plugins": [
-       {
-         "name": "new-plugin",
-         "source": "./path/to/plugin",
-         "description": "Plugin description",
-         "version": "1.0.0"
-       }
-     ]
-   }
-   ```
-
-2. **Commit and push** the changes
-
-3. **Users update** with: `/plugin marketplace update taskmaster`
-
-### Marketplace Versioning
-
-The marketplace version is tracked in `.claude-plugin/marketplace.json`:
-
-```json
-{
-  "metadata": {
-    "version": "1.0.0"
-  }
-}
-```
-
-Increment the version when adding or updating plugins.
-
-## Team Configuration
-
-Organizations can auto-install this marketplace for all team members by adding to `.claude/settings.json`:
-
-```json
-{
-  "extraKnownMarketplaces": {
-    "task-master": {
-      "source": {
-        "source": "github",
-        "repo": "eyaltoledano/claude-task-master"
-      }
-    }
-  },
-  "enabledPlugins": {
-    "taskmaster": {
-      "marketplace": "taskmaster"
-    }
-  }
-}
-```
-
-Team members who trust the repository folder will automatically get the marketplace and plugins installed.
-
-## Documentation
-
-- [Claude Code Plugin Docs](https://docs.claude.com/en/docs/claude-code/plugins)
-- [Marketplace Documentation](https://docs.claude.com/en/docs/claude-code/plugin-marketplaces)

README.md

@@ -119,7 +119,6 @@ MCP (Model Control Protocol) lets you run Task Master directly from your editor.
       "command": "npx",
       "args": ["-y", "task-master-ai"],
       "env": {
-        // "TASK_MASTER_TOOLS": "all", // Options: "all", "standard", "core", or comma-separated list of tools
         "ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
         "PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",
         "OPENAI_API_KEY": "YOUR_OPENAI_KEY_HERE",
@@ -149,7 +148,6 @@ MCP (Model Control Protocol) lets you run Task Master directly from your editor.
       "command": "npx",
       "args": ["-y", "task-master-ai"],
       "env": {
-        // "TASK_MASTER_TOOLS": "all", // Options: "all", "standard", "core", or comma-separated list of tools
         "ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
         "PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",
         "OPENAI_API_KEY": "YOUR_OPENAI_KEY_HERE",
@@ -198,7 +196,7 @@ Initialize taskmaster-ai in my project
 
 #### 5. Make sure you have a PRD (Recommended)
 
-For **new projects**: Create your PRD at `.taskmaster/docs/prd.txt`.
+For **new projects**: Create your PRD at `.taskmaster/docs/prd.txt`  
 For **existing projects**: You can use `scripts/prd.txt` or migrate with `task-master migrate`
 
 An example PRD template is available after initialization in `.taskmaster/templates/example_prd.txt`.
@@ -284,76 +282,6 @@ task-master generate
 task-master rules add windsurf,roo,vscode
 ```
 
-## Tool Loading Configuration
-
-### Optimizing MCP Tool Loading
-
-Task Master's MCP server supports selective tool loading to reduce context window usage. By default, all 36 tools are loaded (~21,000 tokens) to maintain backward compatibility with existing installations.
-
-You can optimize performance by configuring the `TASK_MASTER_TOOLS` environment variable:
-
-### Available Modes
-
-| Mode | Tools | Context Usage | Use Case |
-|------|-------|--------------|----------|
-| `all` (default) | 36 | ~21,000 tokens | Complete feature set - all tools available |
-| `standard` | 15 | ~10,000 tokens | Common task management operations |
-| `core` (or `lean`) | 7 | ~5,000 tokens | Essential daily development workflow |
-| `custom` | Variable | Variable | Comma-separated list of specific tools |
-
-### Configuration Methods
-
-#### Method 1: Environment Variable in MCP Configuration
-
-Add `TASK_MASTER_TOOLS` to your MCP configuration file's `env` section:
-
-```jsonc
-{
-  "mcpServers": {  // or "servers" for VS Code
-    "task-master-ai": {
-      "command": "npx",
-      "args": ["-y", "--package=task-master-ai", "task-master-ai"],
-      "env": {
-        "TASK_MASTER_TOOLS": "standard",  // Options: "all", "standard", "core", "lean", or comma-separated list
-        "ANTHROPIC_API_KEY": "your-key-here",
-        // ... other API keys
-      }
-    }
-  }
-}
-```
-
-#### Method 2: Claude Code CLI (One-Time Setup)
-
-For Claude Code users, you can set the mode during installation:
-
-```bash
-# Core mode example (~70% token reduction)
-claude mcp add task-master-ai --scope user \
-  --env TASK_MASTER_TOOLS="core" \
-  -- npx -y task-master-ai@latest
-
-# Custom tools example
-claude mcp add task-master-ai --scope user \
-  --env TASK_MASTER_TOOLS="get_tasks,next_task,set_task_status" \
-  -- npx -y task-master-ai@latest
-```
-
-### Tool Sets Details
-
-**Core Tools (7):** `get_tasks`, `next_task`, `get_task`, `set_task_status`, `update_subtask`, `parse_prd`, `expand_task`
-
-**Standard Tools (15):** All core tools plus `initialize_project`, `analyze_project_complexity`, `expand_all`, `add_subtask`, `remove_task`, `generate`, `add_task`, `complexity_report`
-
-**All Tools (36):** Complete set including project setup, task management, analysis, dependencies, tags, research, and more
-
-### Recommendations
-
-- **New users**: Start with `"standard"` mode for a good balance
-- **Large projects**: Use `"core"` mode to minimize token usage
-- **Complex workflows**: Use `"all"` mode or custom selection
-- **Backward compatibility**: If not specified, defaults to `"all"` mode
-
 ## Claude Code Support
 
 Task Master now supports Claude models through the Claude Code CLI, which requires no API key:
@@ -382,12 +310,6 @@ cd claude-task-master
 node scripts/init.js
 ```
 
-## Join Our Team
-
-<a href="https://tryhamster.com" target="_blank">
-  <img src="./images/hamster-hiring.png" alt="Join Hamster's founding team" />
-</a>
-
 ## Contributors
 
 <a href="https://github.com/eyaltoledano/claude-task-master/graphs/contributors">

apps/cli/CHANGELOG.md

@@ -11,13 +11,6 @@
 
 ### Patch Changes
 
-- Updated dependencies []:
-  - @tm/core@null
-
-## null
-
-### Patch Changes
-
 - Updated dependencies []:
   - @tm/core@null
 

apps/cli/src/command-registry.ts

@@ -8,7 +8,6 @@ import { Command } from 'commander';
 // Import all commands
 import { ListTasksCommand } from './commands/list.command.js';
 import { ShowCommand } from './commands/show.command.js';
-import { NextCommand } from './commands/next.command.js';
 import { AuthCommand } from './commands/auth.command.js';
 import { ContextCommand } from './commands/context.command.js';
 import { StartCommand } from './commands/start.command.js';
@@ -46,12 +45,6 @@ export class CommandRegistry {
 			commandClass: ShowCommand as any,
 			category: 'task'
 		},
-		{
-			name: 'next',
-			description: 'Find the next available task to work on',
-			commandClass: NextCommand as any,
-			category: 'task'
-		},
 		{
 			name: 'start',
 			description: 'Start working on a task with claude-code',

apps/cli/src/commands/auth.command.ts

@@ -143,7 +143,7 @@ export class AuthCommand extends Command {
 	 */
 	private async executeStatus(): Promise<void> {
 		try {
-			const result = await this.displayStatus();
+			const result = this.displayStatus();
 			this.setLastResult(result);
 		} catch (error: any) {
 			this.handleError(error);
@@ -171,8 +171,8 @@ export class AuthCommand extends Command {
 	/**
 	 * Display authentication status
 	 */
-	private async displayStatus(): Promise<AuthResult> {
-		const credentials = await this.authManager.getCredentials();
+	private displayStatus(): AuthResult {
+		const credentials = this.authManager.getCredentials();
 
 		console.log(chalk.cyan('\n🔐 Authentication Status\n'));
 
@@ -187,29 +187,19 @@ export class AuthCommand extends Command {
 			if (credentials.expiresAt) {
 				const expiresAt = new Date(credentials.expiresAt);
 				const now = new Date();
-				const timeRemaining = expiresAt.getTime() - now.getTime();
-				const hoursRemaining = Math.floor(timeRemaining / (1000 * 60 * 60));
-				const minutesRemaining = Math.floor(timeRemaining / (1000 * 60));
+				const hoursRemaining = Math.floor(
+					(expiresAt.getTime() - now.getTime()) / (1000 * 60 * 60)
+				);
 
-				if (timeRemaining > 0) {
-					// Token is still valid
-					if (hoursRemaining > 0) {
-						console.log(
-							chalk.gray(
-								`  Expires at: ${expiresAt.toLocaleString()} (${hoursRemaining} hours remaining)`
-							)
-						);
-					} else {
-						console.log(
-							chalk.gray(
-								`  Expires at: ${expiresAt.toLocaleString()} (${minutesRemaining} minutes remaining)`
-							)
-						);
-					}
-				} else {
-					// Token has expired
+				if (hoursRemaining > 0) {
 					console.log(
-						chalk.yellow(`  Expired at: ${expiresAt.toLocaleString()}`)
+						chalk.gray(
+							`  Expires: ${expiresAt.toLocaleString()} (${hoursRemaining} hours remaining)`
+						)
+					);
+				} else {
+					console.log(
+						chalk.yellow(`  Token expired at: ${expiresAt.toLocaleString()}`)
 					);
 				}
 			} else {
@@ -325,7 +315,7 @@ export class AuthCommand extends Command {
 			]);
 
 			if (!continueAuth) {
-				const credentials = await this.authManager.getCredentials();
+				const credentials = this.authManager.getCredentials();
 				ui.displaySuccess('Using existing authentication');
 
 				if (credentials) {
@@ -490,7 +480,7 @@ export class AuthCommand extends Command {
 	/**
 	 * Get current credentials (for programmatic usage)
 	 */
-	getCredentials(): Promise<AuthCredentials | null> {
+	getCredentials(): AuthCredentials | null {
 		return this.authManager.getCredentials();
 	}
 

apps/cli/src/commands/context.command.ts

@@ -115,7 +115,7 @@ export class ContextCommand extends Command {
 	 */
 	private async executeShow(): Promise<void> {
 		try {
-			const result = await this.displayContext();
+			const result = this.displayContext();
 			this.setLastResult(result);
 		} catch (error: any) {
 			this.handleError(error);
@@ -126,7 +126,7 @@ export class ContextCommand extends Command {
 	/**
 	 * Display current context
 	 */
-	private async displayContext(): Promise<ContextResult> {
+	private displayContext(): ContextResult {
 		// Check authentication first
 		if (!this.authManager.isAuthenticated()) {
 			console.log(chalk.yellow('✗ Not authenticated'));
@@ -139,7 +139,7 @@ export class ContextCommand extends Command {
 			};
 		}
 
-		const context = await this.authManager.getContext();
+		const context = this.authManager.getContext();
 
 		console.log(chalk.cyan('\n🌍 Workspace Context\n'));
 
@@ -263,7 +263,7 @@ export class ContextCommand extends Command {
 			return {
 				success: true,
 				action: 'select-org',
-				context: (await this.authManager.getContext()) || undefined,
+				context: this.authManager.getContext() || undefined,
 				message: `Selected organization: ${selectedOrg.name}`
 			};
 		} catch (error) {
@@ -284,7 +284,7 @@ export class ContextCommand extends Command {
 			}
 
 			// Check if org is selected
-			const context = await this.authManager.getContext();
+			const context = this.authManager.getContext();
 			if (!context?.orgId) {
 				ui.displayError(
 					'No organization selected. Run "tm context org" first.'
@@ -353,7 +353,7 @@ export class ContextCommand extends Command {
 				return {
 					success: true,
 					action: 'select-brief',
-					context: (await this.authManager.getContext()) || undefined,
+					context: this.authManager.getContext() || undefined,
 					message: `Selected brief: ${selectedBrief.name}`
 				};
 			} else {
@@ -368,7 +368,7 @@ export class ContextCommand extends Command {
 				return {
 					success: true,
 					action: 'select-brief',
-					context: (await this.authManager.getContext()) || undefined,
+					context: this.authManager.getContext() || undefined,
 					message: 'Cleared brief selection'
 				};
 			}
@@ -508,7 +508,7 @@ export class ContextCommand extends Command {
 			this.setLastResult({
 				success: true,
 				action: 'set',
-				context: (await this.authManager.getContext()) || undefined,
+				context: this.authManager.getContext() || undefined,
 				message: 'Context set from brief'
 			});
 		} catch (error: any) {
@@ -631,7 +631,7 @@ export class ContextCommand extends Command {
 			return {
 				success: true,
 				action: 'set',
-				context: (await this.authManager.getContext()) || undefined,
+				context: this.authManager.getContext() || undefined,
 				message: 'Context updated'
 			};
 		} catch (error) {
@@ -682,7 +682,7 @@ export class ContextCommand extends Command {
 	/**
 	 * Get current context (for programmatic usage)
 	 */
-	getContext(): Promise<UserContext | null> {
+	getContext(): UserContext | null {
 		return this.authManager.getContext();
 	}
 

apps/cli/src/commands/export.command.ts

@@ -103,7 +103,7 @@ export class ExportCommand extends Command {
 			await this.initializeServices();
 
 			// Get current context
-			const context = await this.authManager.getContext();
+			const context = this.authManager.getContext();
 
 			// Determine org and brief IDs
 			let orgId = options?.org || context?.orgId;

apps/cli/src/commands/next.command.ts

@@ -1,247 +0,0 @@
-/**
- * @fileoverview NextCommand using Commander's native class pattern
- * Extends Commander.Command for better integration with the framework
- */
-
-import path from 'node:path';
-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 { displayTaskDetails } from '../ui/components/task-detail.component.js';
-import { displayHeader } from '../ui/index.js';
-
-/**
- * Options interface for the next command
- */
-export interface NextCommandOptions {
-	tag?: string;
-	format?: 'text' | 'json';
-	silent?: boolean;
-	project?: string;
-}
-
-/**
- * Result type from next command
- */
-export interface NextTaskResult {
-	task: Task | null;
-	found: boolean;
-	tag: string;
-	storageType: Exclude<StorageType, 'auto'>;
-}
-
-/**
- * NextCommand extending Commander's Command class
- * This is a thin presentation layer over @tm/core
- */
-export class NextCommand extends Command {
-	private tmCore?: TaskMasterCore;
-	private lastResult?: NextTaskResult;
-
-	constructor(name?: string) {
-		super(name || 'next');
-
-		// Configure the command
-		this.description('Find the next available task to work on')
-			.option('-t, --tag <tag>', 'Filter by tag')
-			.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: NextCommandOptions) => {
-				await this.executeCommand(options);
-			});
-	}
-
-	/**
-	 * Execute the next command
-	 */
-	private async executeCommand(options: NextCommandOptions): Promise<void> {
-		try {
-			// Validate options (throws on invalid options)
-			this.validateOptions(options);
-
-			// Initialize tm-core
-			await this.initializeCore(options.project || process.cwd());
-
-			// Get next task from core
-			const result = await this.getNextTask(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)
-			};
-
-			// Allow error to propagate for library compatibility
-			throw new Error(msg.message || 'Unexpected error in next command');
-		} finally {
-			// Always clean up resources, even on error
-			await this.cleanup();
-		}
-	}
-
-	/**
-	 * Validate command options
-	 */
-	private validateOptions(options: NextCommandOptions): void {
-		// Validate format
-		if (options.format && !['text', 'json'].includes(options.format)) {
-			throw new Error(
-				`Invalid format: ${options.format}. Valid formats are: text, json`
-			);
-		}
-	}
-
-	/**
-	 * Initialize TaskMasterCore
-	 */
-	private async initializeCore(projectRoot: string): Promise<void> {
-		if (!this.tmCore) {
-			const resolved = path.resolve(projectRoot);
-			this.tmCore = await createTaskMasterCore({ projectPath: resolved });
-		}
-	}
-
-	/**
-	 * Get next task from tm-core
-	 */
-	private async getNextTask(
-		options: NextCommandOptions
-	): Promise<NextTaskResult> {
-		if (!this.tmCore) {
-			throw new Error('TaskMasterCore not initialized');
-		}
-
-		// Call tm-core to get next task
-		const task = await this.tmCore.getNextTask(options.tag);
-
-		// Get storage type and active tag
-		const storageType = this.tmCore.getStorageType();
-		if (storageType === 'auto') {
-			throw new Error('Storage type must be resolved before use');
-		}
-		const activeTag = options.tag || this.tmCore.getActiveTag();
-
-		return {
-			task,
-			found: task !== null,
-			tag: activeTag,
-			storageType
-		};
-	}
-
-	/**
-	 * Display results based on format
-	 */
-	private displayResults(
-		result: NextTaskResult,
-		options: NextCommandOptions
-	): void {
-		const format = options.format || 'text';
-
-		switch (format) {
-			case 'json':
-				this.displayJson(result);
-				break;
-
-			case 'text':
-			default:
-				this.displayText(result);
-				break;
-		}
-	}
-
-	/**
-	 * Display in JSON format
-	 */
-	private displayJson(result: NextTaskResult): void {
-		console.log(JSON.stringify(result, null, 2));
-	}
-
-	/**
-	 * Display in text format
-	 */
-	private displayText(result: NextTaskResult): void {
-		// Display header with tag (no file path for next command)
-		displayHeader({
-			tag: result.tag || 'master'
-		});
-
-		if (!result.found || !result.task) {
-			// No next task available
-			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'
-					}
-				)
-			);
-			console.log(`\n${chalk.gray('Storage: ' + result.storageType)}`);
-			console.log(
-				`\n${chalk.dim('Tip: Try')} ${chalk.cyan('task-master list --status pending')} ${chalk.dim('to see all pending tasks')}`
-			);
-			return;
-		}
-
-		const task = result.task;
-
-		// Display the task details using the same component as 'show' command
-		// with a custom header indicating this is the next task
-		const customHeader = `Next Task: #${task.id} - ${task.title}`;
-		displayTaskDetails(task, {
-			customHeader,
-			headerColor: 'green',
-			showSuggestedActions: true
-		});
-
-		console.log(`\n${chalk.gray('Storage: ' + result.storageType)}`);
-	}
-
-	/**
-	 * Set the last result for programmatic access
-	 */
-	private setLastResult(result: NextTaskResult): void {
-		this.lastResult = result;
-	}
-
-	/**
-	 * Get the last result (for programmatic usage)
-	 */
-	getLastResult(): NextTaskResult | undefined {
-		return this.lastResult;
-	}
-
-	/**
-	 * Clean up resources
-	 */
-	async cleanup(): Promise<void> {
-		if (this.tmCore) {
-			await this.tmCore.close();
-			this.tmCore = undefined;
-		}
-	}
-
-	/**
-	 * Register this command on an existing program
-	 */
-	static register(program: Command, name?: string): NextCommand {
-		const nextCommand = new NextCommand(name);
-		program.addCommand(nextCommand);
-		return nextCommand;
-	}
-}

apps/cli/src/index.ts

@@ -6,7 +6,6 @@
 // Commands
 export { ListTasksCommand } from './commands/list.command.js';
 export { ShowCommand } from './commands/show.command.js';
-export { NextCommand } from './commands/next.command.js';
 export { AuthCommand } from './commands/auth.command.js';
 export { ContextCommand } from './commands/context.command.js';
 export { StartCommand } from './commands/start.command.js';

apps/cli/src/ui/components/header.component.ts

@@ -25,9 +25,9 @@ export function displayHeader(options: HeaderOptions = {}): void {
 		let tagInfo = '';
 
 		if (tag && tag !== 'master') {
-			tagInfo = `🏷  tag: ${chalk.cyan(tag)}`;
+			tagInfo = `🏷 tag: ${chalk.cyan(tag)}`;
 		} else {
-			tagInfo = `🏷  tag: ${chalk.cyan('master')}`;
+			tagInfo = `🏷 tag: ${chalk.cyan('master')}`;
 		}
 
 		console.log(tagInfo);
@@ -39,5 +39,7 @@ export function displayHeader(options: HeaderOptions = {}): void {
 				: `${process.cwd()}/${filePath}`;
 			console.log(`Listing tasks from: ${chalk.dim(absolutePath)}`);
 		}
+
+		console.log(); // Empty line for spacing
 	}
 }

apps/cli/src/ui/components/next-task.component.ts

@@ -6,7 +6,7 @@
 import chalk from 'chalk';
 import boxen from 'boxen';
 import type { Task } from '@tm/core/types';
-import { getComplexityWithColor, getBoxWidth } from '../../utils/ui.js';
+import { getComplexityWithColor } from '../../utils/ui.js';
 
 /**
  * Next task display options
@@ -113,7 +113,7 @@ export function displayRecommendedNextTask(
 			borderColor: '#FFA500', // Orange color
 			title: chalk.hex('#FFA500')('⚡ RECOMMENDED NEXT TASK ⚡'),
 			titleAlignment: 'center',
-			width: getBoxWidth(0.97),
+			width: process.stdout.columns * 0.97,
 			fullscreen: false
 		})
 	);

apps/cli/src/ui/components/suggested-steps.component.ts

@@ -5,7 +5,6 @@
 
 import chalk from 'chalk';
 import boxen from 'boxen';
-import { getBoxWidth } from '../../utils/ui.js';
 
 /**
  * Display suggested next steps section
@@ -25,7 +24,7 @@ export function displaySuggestedNextSteps(): void {
 				margin: { top: 0, bottom: 1 },
 				borderStyle: 'round',
 				borderColor: 'gray',
-				width: getBoxWidth(0.97)
+				width: process.stdout.columns * 0.97
 			}
 		)
 	);

apps/cli/src/utils/auto-update.ts

@@ -12,7 +12,6 @@ export interface UpdateInfo {
 	currentVersion: string;
 	latestVersion: string;
 	needsUpdate: boolean;
-	highlights?: string[];
 }
 
 /**
@@ -60,116 +59,6 @@ export function compareVersions(v1: string, v2: string): number {
 	return a.pre < b.pre ? -1 : 1; // basic prerelease tie-break
 }
 
-/**
- * Fetch CHANGELOG.md from GitHub and extract highlights for a specific version
- */
-async function fetchChangelogHighlights(version: string): Promise<string[]> {
-	return new Promise((resolve) => {
-		const options = {
-			hostname: 'raw.githubusercontent.com',
-			path: '/eyaltoledano/claude-task-master/main/CHANGELOG.md',
-			method: 'GET',
-			headers: {
-				'User-Agent': `task-master-ai/${version}`
-			}
-		};
-
-		const req = https.request(options, (res) => {
-			let data = '';
-
-			res.on('data', (chunk) => {
-				data += chunk;
-			});
-
-			res.on('end', () => {
-				try {
-					if (res.statusCode !== 200) {
-						resolve([]);
-						return;
-					}
-
-					const highlights = parseChangelogHighlights(data, version);
-					resolve(highlights);
-				} catch (error) {
-					resolve([]);
-				}
-			});
-		});
-
-		req.on('error', () => {
-			resolve([]);
-		});
-
-		req.setTimeout(3000, () => {
-			req.destroy();
-			resolve([]);
-		});
-
-		req.end();
-	});
-}
-
-/**
- * Parse changelog markdown to extract Minor Changes for a specific version
- * @internal - Exported for testing purposes only
- */
-export function parseChangelogHighlights(
-	changelog: string,
-	version: string
-): string[] {
-	try {
-		// Validate version format (basic semver pattern) to prevent ReDoS
-		if (!/^\d+\.\d+\.\d+(-[a-zA-Z0-9.-]+)?$/.test(version)) {
-			return [];
-		}
-
-		// Find the version section
-		const versionRegex = new RegExp(
-			`## ${version.replace(/\./g, '\\.')}\\s*\\n`,
-			'i'
-		);
-		const versionMatch = changelog.match(versionRegex);
-
-		if (!versionMatch) {
-			return [];
-		}
-
-		// Extract content from this version to the next version heading
-		const startIdx = versionMatch.index! + versionMatch[0].length;
-		const nextVersionIdx = changelog.indexOf('\n## ', startIdx);
-		const versionContent =
-			nextVersionIdx > 0
-				? changelog.slice(startIdx, nextVersionIdx)
-				: changelog.slice(startIdx);
-
-		// Find Minor Changes section
-		const minorChangesMatch = versionContent.match(
-			/### Minor Changes\s*\n([\s\S]*?)(?=\n###|\n##|$)/i
-		);
-
-		if (!minorChangesMatch) {
-			return [];
-		}
-
-		const minorChangesContent = minorChangesMatch[1];
-		const highlights: string[] = [];
-
-		// Extract all bullet points (lines starting with -)
-		// Format: - [#PR](...) Thanks [@author]! - Description
-		const bulletRegex = /^-\s+\[#\d+\][^\n]*?!\s+-\s+(.+?)$/gm;
-		let match;
-
-		while ((match = bulletRegex.exec(minorChangesContent)) !== null) {
-			const desc = match[1].trim();
-			highlights.push(desc);
-		}
-
-		return highlights;
-	} catch (error) {
-		return [];
-	}
-}
-
 /**
  * Check for newer version of task-master-ai
  */
@@ -196,7 +85,7 @@ export async function checkForUpdate(
 				data += chunk;
 			});
 
-			res.on('end', async () => {
+			res.on('end', () => {
 				try {
 					if (res.statusCode !== 200)
 						throw new Error(`npm registry status ${res.statusCode}`);
@@ -206,17 +95,10 @@ export async function checkForUpdate(
 					const needsUpdate =
 						compareVersions(currentVersion, latestVersion) < 0;
 
-					// Fetch highlights if update is needed
-					let highlights: string[] | undefined;
-					if (needsUpdate) {
-						highlights = await fetchChangelogHighlights(latestVersion);
-					}
-
 					resolve({
 						currentVersion,
 						latestVersion,
-						needsUpdate,
-						highlights
+						needsUpdate
 					});
 				} catch (error) {
 					resolve({
@@ -254,29 +136,18 @@ export async function checkForUpdate(
  */
 export function displayUpgradeNotification(
 	currentVersion: string,
-	latestVersion: string,
-	highlights?: string[]
+	latestVersion: string
 ) {
-	let content = `${chalk.blue.bold('Update Available!')} ${chalk.dim(currentVersion)} → ${chalk.green(latestVersion)}`;
-
-	if (highlights && highlights.length > 0) {
-		content += '\n\n' + chalk.bold("What's New:");
-		for (const highlight of highlights) {
-			content += '\n' + chalk.cyan('• ') + highlight;
+	const message = boxen(
+		`${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'
 		}
-		content += '\n\n' + 'Auto-updating to the latest version...';
-	} else {
-		content +=
-			'\n\n' +
-			'Auto-updating to the latest version with new features and bug fixes...';
-	}
-
-	const message = boxen(content, {
-		padding: 1,
-		margin: { top: 1, bottom: 1 },
-		borderColor: 'yellow',
-		borderStyle: 'round'
-	});
+	);
 
 	console.log(message);
 }

apps/cli/src/utils/ui.spec.ts

@@ -1,158 +0,0 @@
-/**
- * CLI UI utilities tests
- * Tests for apps/cli/src/utils/ui.ts
- */
-
-import { describe, it, expect, beforeEach, afterEach, vi } from 'vitest';
-import type { MockInstance } from 'vitest';
-import { getBoxWidth } from './ui.js';
-
-describe('CLI UI Utilities', () => {
-	describe('getBoxWidth', () => {
-		let columnsSpy: MockInstance;
-		let originalDescriptor: PropertyDescriptor | undefined;
-
-		beforeEach(() => {
-			// Store original descriptor if it exists
-			originalDescriptor = Object.getOwnPropertyDescriptor(
-				process.stdout,
-				'columns'
-			);
-
-			// If columns doesn't exist or isn't a getter, define it as one
-			if (!originalDescriptor || !originalDescriptor.get) {
-				const currentValue = process.stdout.columns || 80;
-				Object.defineProperty(process.stdout, 'columns', {
-					get() {
-						return currentValue;
-					},
-					configurable: true
-				});
-			}
-
-			// Now spy on the getter
-			columnsSpy = vi.spyOn(process.stdout, 'columns', 'get');
-		});
-
-		afterEach(() => {
-			// Restore the spy
-			columnsSpy.mockRestore();
-
-			// Restore original descriptor or delete the property
-			if (originalDescriptor) {
-				Object.defineProperty(process.stdout, 'columns', originalDescriptor);
-			} else {
-				delete (process.stdout as any).columns;
-			}
-		});
-
-		it('should calculate width as percentage of terminal width', () => {
-			columnsSpy.mockReturnValue(100);
-			const width = getBoxWidth(0.9, 40);
-			expect(width).toBe(90);
-		});
-
-		it('should use default percentage of 0.9 when not specified', () => {
-			columnsSpy.mockReturnValue(100);
-			const width = getBoxWidth();
-			expect(width).toBe(90);
-		});
-
-		it('should use default minimum width of 40 when not specified', () => {
-			columnsSpy.mockReturnValue(30);
-			const width = getBoxWidth();
-			expect(width).toBe(40); // Should enforce minimum
-		});
-
-		it('should enforce minimum width when terminal is too narrow', () => {
-			columnsSpy.mockReturnValue(50);
-			const width = getBoxWidth(0.9, 60);
-			expect(width).toBe(60); // Should use minWidth instead of 45
-		});
-
-		it('should handle undefined process.stdout.columns', () => {
-			columnsSpy.mockReturnValue(undefined);
-			const width = getBoxWidth(0.9, 40);
-			// Should fall back to 80 columns: Math.floor(80 * 0.9) = 72
-			expect(width).toBe(72);
-		});
-
-		it('should handle custom percentage values', () => {
-			columnsSpy.mockReturnValue(100);
-			expect(getBoxWidth(0.95, 40)).toBe(95);
-			expect(getBoxWidth(0.8, 40)).toBe(80);
-			expect(getBoxWidth(0.5, 40)).toBe(50);
-		});
-
-		it('should handle custom minimum width values', () => {
-			columnsSpy.mockReturnValue(60);
-			expect(getBoxWidth(0.9, 70)).toBe(70); // 60 * 0.9 = 54, but min is 70
-			expect(getBoxWidth(0.9, 50)).toBe(54); // 60 * 0.9 = 54, min is 50
-		});
-
-		it('should floor the calculated width', () => {
-			columnsSpy.mockReturnValue(99);
-			const width = getBoxWidth(0.9, 40);
-			// 99 * 0.9 = 89.1, should floor to 89
-			expect(width).toBe(89);
-		});
-
-		it('should match warning box width calculation', () => {
-			// Test the specific case from displayWarning()
-			columnsSpy.mockReturnValue(80);
-			const width = getBoxWidth(0.9, 40);
-			expect(width).toBe(72);
-		});
-
-		it('should match table width calculation', () => {
-			// Test the specific case from createTaskTable()
-			columnsSpy.mockReturnValue(111);
-			const width = getBoxWidth(0.9, 100);
-			// 111 * 0.9 = 99.9, floor to 99, but max(99, 100) = 100
-			expect(width).toBe(100);
-		});
-
-		it('should match recommended task box width calculation', () => {
-			// Test the specific case from displayRecommendedNextTask()
-			columnsSpy.mockReturnValue(120);
-			const width = getBoxWidth(0.97, 40);
-			// 120 * 0.97 = 116.4, floor to 116
-			expect(width).toBe(116);
-		});
-
-		it('should handle edge case of zero terminal width', () => {
-			columnsSpy.mockReturnValue(0);
-			const width = getBoxWidth(0.9, 40);
-			// When columns is 0, it uses fallback of 80: Math.floor(80 * 0.9) = 72
-			expect(width).toBe(72);
-		});
-
-		it('should handle very large terminal widths', () => {
-			columnsSpy.mockReturnValue(1000);
-			const width = getBoxWidth(0.9, 40);
-			expect(width).toBe(900);
-		});
-
-		it('should handle very small percentages', () => {
-			columnsSpy.mockReturnValue(100);
-			const width = getBoxWidth(0.1, 5);
-			// 100 * 0.1 = 10, which is greater than min 5
-			expect(width).toBe(10);
-		});
-
-		it('should handle percentage of 1.0 (100%)', () => {
-			columnsSpy.mockReturnValue(80);
-			const width = getBoxWidth(1.0, 40);
-			expect(width).toBe(80);
-		});
-
-		it('should consistently return same value for same inputs', () => {
-			columnsSpy.mockReturnValue(100);
-			const width1 = getBoxWidth(0.9, 40);
-			const width2 = getBoxWidth(0.9, 40);
-			const width3 = getBoxWidth(0.9, 40);
-			expect(width1).toBe(width2);
-			expect(width2).toBe(width3);
-		});
-	});
-});

apps/cli/src/utils/ui.ts

@@ -126,20 +126,6 @@ export function getComplexityWithScore(complexity: number | undefined): string {
 	return color(`${complexity}/10 (${label})`);
 }
 
-/**
- * Calculate box width as percentage of terminal width
- * @param percentage - Percentage of terminal width to use (default: 0.9)
- * @param minWidth - Minimum width to enforce (default: 40)
- * @returns Calculated box width
- */
-export function getBoxWidth(
-	percentage: number = 0.9,
-	minWidth: number = 40
-): number {
-	const terminalWidth = process.stdout.columns || 80;
-	return Math.max(Math.floor(terminalWidth * percentage), minWidth);
-}
-
 /**
  * Truncate text to specified length
  */
@@ -190,8 +176,6 @@ export function displayBanner(title: string = 'Task Master'): void {
  * Display an error message (matches scripts/modules/ui.js style)
  */
 export function displayError(message: string, details?: string): void {
-	const boxWidth = getBoxWidth();
-
 	console.error(
 		boxen(
 			chalk.red.bold('X Error: ') +
@@ -200,8 +184,7 @@ export function displayError(message: string, details?: string): void {
 			{
 				padding: 1,
 				borderStyle: 'round',
-				borderColor: 'red',
-				width: boxWidth
+				borderColor: 'red'
 			}
 		)
 	);
@@ -211,16 +194,13 @@ export function displayError(message: string, details?: string): void {
  * Display a success message
  */
 export function displaySuccess(message: string): void {
-	const boxWidth = getBoxWidth();
-
 	console.log(
 		boxen(
 			chalk.green.bold(String.fromCharCode(8730) + ' ') + chalk.white(message),
 			{
 				padding: 1,
 				borderStyle: 'round',
-				borderColor: 'green',
-				width: boxWidth
+				borderColor: 'green'
 			}
 		)
 	);
@@ -230,14 +210,11 @@ export function displaySuccess(message: string): void {
  * Display a warning message
  */
 export function displayWarning(message: string): void {
-	const boxWidth = getBoxWidth();
-
 	console.log(
 		boxen(chalk.yellow.bold('⚠ ') + chalk.white(message), {
 			padding: 1,
 			borderStyle: 'round',
-			borderColor: 'yellow',
-			width: boxWidth
+			borderColor: 'yellow'
 		})
 	);
 }
@@ -246,14 +223,11 @@ export function displayWarning(message: string): void {
  * Display info message
  */
 export function displayInfo(message: string): void {
-	const boxWidth = getBoxWidth();
-
 	console.log(
 		boxen(chalk.blue.bold('i ') + chalk.white(message), {
 			padding: 1,
 			borderStyle: 'round',
-			borderColor: 'blue',
-			width: boxWidth
+			borderColor: 'blue'
 		})
 	);
 }
@@ -308,23 +282,23 @@ export function createTaskTable(
 	} = options || {};
 
 	// Calculate dynamic column widths based on terminal width
-	const tableWidth = getBoxWidth(0.9, 100);
+	const terminalWidth = process.stdout.columns * 0.9 || 100;
 	// Adjust column widths to better match the original layout
 	const baseColWidths = showComplexity
 		? [
-				Math.floor(tableWidth * 0.1),
-				Math.floor(tableWidth * 0.4),
-				Math.floor(tableWidth * 0.15),
-				Math.floor(tableWidth * 0.1),
-				Math.floor(tableWidth * 0.2),
-				Math.floor(tableWidth * 0.1)
+				Math.floor(terminalWidth * 0.1),
+				Math.floor(terminalWidth * 0.4),
+				Math.floor(terminalWidth * 0.15),
+				Math.floor(terminalWidth * 0.1),
+				Math.floor(terminalWidth * 0.2),
+				Math.floor(terminalWidth * 0.1)
 			] // ID, Title, Status, Priority, Dependencies, Complexity
 		: [
-				Math.floor(tableWidth * 0.08),
-				Math.floor(tableWidth * 0.4),
-				Math.floor(tableWidth * 0.18),
-				Math.floor(tableWidth * 0.12),
-				Math.floor(tableWidth * 0.2)
+				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 = [

apps/docs/CHANGELOG.md

@@ -1,7 +1,5 @@
 # docs
 
-## 0.0.6
-
 ## 0.0.5
 
 ## 0.0.4

apps/docs/capabilities/cli-root-commands.mdx

@@ -35,18 +35,6 @@ sidebarTitle: "CLI Commands"
     ```bash
     # Show the next task to work on based on dependencies and status
     task-master next
-
-    # Filter by tag
-    task-master next --tag <tag>
-
-    # Output in JSON format (useful for programmatic usage)
-    task-master next --format json
-
-    # Suppress output (useful for scripts)
-    task-master next --silent
-
-    # Specify project directory
-    task-master next --project /path/to/project
     ```
   </Accordion>
 

apps/docs/capabilities/mcp.mdx

@@ -13,126 +13,6 @@ The MCP interface is built on top of the `fastmcp` library and registers a set o
 
 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`.
 
-## Configurable Tool Loading
-
-To optimize LLM context usage, you can control which Task Master MCP tools are loaded using the `TASK_MASTER_TOOLS` environment variable. This is particularly useful when working with LLMs that have context limits or when you only need a subset of tools.
-
-### Configuration Modes
-
-#### All Tools (Default)
-Loads all 36 available tools. Use when you need full Task Master functionality.
-
-```json
-{
-  "mcpServers": {
-    "task-master-ai": {
-      "command": "npx",
-      "args": ["-y", "task-master-ai"],
-      "env": {
-        "TASK_MASTER_TOOLS": "all",
-        "ANTHROPIC_API_KEY": "your_key_here"
-      }
-    }
-  }
-}
-```
-
-If `TASK_MASTER_TOOLS` is not set, all tools are loaded by default.
-
-#### Core Tools (Lean Mode)
-Loads only 7 essential tools for daily development. Ideal for minimal context usage.
-
-**Core tools included:**
-- `get_tasks` - List all tasks
-- `next_task` - Find the next task to work on
-- `get_task` - Get detailed task information
-- `set_task_status` - Update task status
-- `update_subtask` - Add implementation notes
-- `parse_prd` - Generate tasks from PRD
-- `expand_task` - Break down tasks into subtasks
-
-```json
-{
-  "mcpServers": {
-    "task-master-ai": {
-      "command": "npx",
-      "args": ["-y", "task-master-ai"],
-      "env": {
-        "TASK_MASTER_TOOLS": "core",
-        "ANTHROPIC_API_KEY": "your_key_here"
-      }
-    }
-  }
-}
-```
-
-You can also use `"lean"` as an alias for `"core"`.
-
-#### Standard Tools
-Loads 15 commonly used tools. Balances functionality with context efficiency.
-
-**Standard tools include all core tools plus:**
-- `initialize_project` - Set up new projects
-- `analyze_project_complexity` - Analyze task complexity
-- `expand_all` - Expand all eligible tasks
-- `add_subtask` - Add subtasks manually
-- `remove_task` - Remove tasks
-- `generate` - Generate task markdown files
-- `add_task` - Create new tasks
-- `complexity_report` - View complexity analysis
-
-```json
-{
-  "mcpServers": {
-    "task-master-ai": {
-      "command": "npx",
-      "args": ["-y", "task-master-ai"],
-      "env": {
-        "TASK_MASTER_TOOLS": "standard",
-        "ANTHROPIC_API_KEY": "your_key_here"
-      }
-    }
-  }
-}
-```
-
-#### Custom Tool Selection
-Specify exactly which tools to load using a comma-separated list. Tool names are case-insensitive and support both underscores and hyphens.
-
-```json
-{
-  "mcpServers": {
-    "task-master-ai": {
-      "command": "npx",
-      "args": ["-y", "task-master-ai"],
-      "env": {
-        "TASK_MASTER_TOOLS": "get_tasks,next_task,set_task_status,update_subtask",
-        "ANTHROPIC_API_KEY": "your_key_here"
-      }
-    }
-  }
-}
-```
-
-### Choosing the Right Configuration
-
-- **Use `core`/`lean`**: When working with basic task management workflows or when context limits are strict
-- **Use `standard`**: For most development workflows that include task creation and analysis
-- **Use `all`**: When you need full functionality including tag management, dependencies, and advanced features
-- **Use custom list**: When you have specific tool requirements or want to experiment with minimal sets
-
-### Verification
-
-When the MCP server starts, it logs which tools were loaded:
-
-```
-Task Master MCP Server starting...
-Tool mode configuration: standard
-Loading standard tools
-Registering 15 MCP tools (mode: standard)
-Successfully registered 15/15 tools
-```
-
 ## Tool Categories
 
 The MCP tools can be categorized in the same way as the core functionalities:

apps/docs/capabilities/rpg-method.mdx

@@ -1,326 +0,0 @@
----
-title: RPG Method for PRD Creation
-sidebarTitle: "RPG Method"
----
-
-# Repository Planning Graph (RPG) Method
-
-The RPG (Repository Planning Graph) method is an advanced approach to creating Product Requirements Documents that generate highly-structured, dependency-aware task graphs. It's based on Microsoft Research's methodology for scalable codebase generation.
-
-## When to Use RPG
-
-Use the RPG template (`example_prd_rpg.txt`) for:
-
-- **Complex multi-module systems** with intricate dependencies
-- **Large-scale codebases** being built from scratch
-- **Projects requiring explicit architecture** and clear module boundaries
-- **Teams needing dependency visibility** for parallel development
-
-For simpler features or smaller projects, the standard `example_prd.txt` template may be more appropriate.
-
----
-
-## Core Principles
-
-### 1. Dual-Semantics
-
-Separate **functional** thinking (WHAT) from **structural** thinking (HOW):
-
-```
-Functional: "Data Validation capability with schema checking and rule enforcement"
-                    ↓
-Structural: "src/validation/ with schema-validator.js and rule-validator.js"
-```
-
-This separation prevents mixing concerns and creates clearer module boundaries.
-
-### 2. Explicit Dependencies
-
-Never assume dependencies - always state them explicitly:
-
-```
-Good:
-  Module: data-ingestion
-  Depends on: [schema-validator, config-manager]
-
-Bad:
-  Module: data-ingestion
-  (Assumes schema-validator exists somewhere)
-```
-
-Explicit dependencies enable:
-- Topological ordering of implementation
-- Parallel development of independent modules
-- Clear build/test order
-- Early detection of circular dependencies
-
-### 3. Topological Order
-
-Build foundation layers before higher layers:
-
-```
-Phase 0 (Foundation): error-handling, base-types, config
-                ↓
-Phase 1 (Data): validation, ingestion (depend on Phase 0)
-                ↓
-Phase 2 (Core): algorithms, pipelines (depend on Phase 1)
-                ↓
-Phase 3 (API): routes, handlers (depend on Phase 2)
-```
-
-Task Master automatically orders tasks based on this dependency chain.
-
-### 4. Progressive Refinement
-
-Start broad, refine iteratively:
-
-1. High-level capabilities → Main tasks
-2. Features per capability → Subtasks
-3. Implementation details → Expanded subtasks
-
----
-
-## Template Structure
-
-The RPG template guides you through 7 key sections:
-
-### 1. Overview
-- Problem statement
-- Target users
-- Success metrics
-
-### 2. Functional Decomposition (WHAT)
-- High-level capability domains
-- Features per capability
-- Inputs/outputs/behavior for each feature
-
-**Example:**
-```
-Capability: Data Management
-  Feature: Schema validation
-    Description: Validate JSON against defined schemas
-    Inputs: JSON object, schema definition
-    Outputs: Validation result + error details
-    Behavior: Iterate fields, check types, enforce constraints
-```
-
-### 3. Structural Decomposition (HOW)
-- Repository folder structure
-- Module-to-capability mapping
-- File organization
-- Public interfaces/exports
-
-**Example:**
-```
-Capability: Data Management
-  → Maps to: src/data/
-    ├── schema-validator.js    (Schema validation feature)
-    ├── rule-validator.js      (Rule validation feature)
-    └── index.js               (Exports)
-```
-
-### 4. Dependency Graph (CRITICAL)
-- Foundation layer (no dependencies)
-- Each subsequent layer's dependencies
-- Explicit "depends on" declarations
-
-**Example:**
-```
-Foundation Layer (Phase 0):
-  - error-handling: No dependencies
-  - base-types: No dependencies
-
-Data Layer (Phase 1):
-  - schema-validator: Depends on [base-types, error-handling]
-  - data-ingestion: Depends on [schema-validator]
-```
-
-### 5. Implementation Roadmap
-- Phases with entry/exit criteria
-- Tasks grouped by phase
-- Clear deliverables per phase
-
-### 6. Test Strategy
-- Test pyramid ratios
-- Coverage requirements
-- Critical test scenarios per module
-- Guidelines for test generation
-
-### 7. Architecture & Risks
-- Technical architecture
-- Data models
-- Technology decisions
-- Risk mitigation strategies
-
----
-
-## Using RPG with Task Master
-
-### Step 1: Create PRD with RPG Template
-
-Use a code-context-aware tool to fill out the template:
-
-```bash
-# In Claude Code, Cursor, or similar
-"Create a PRD using @.taskmaster/templates/example_prd_rpg.txt for [your project]"
-```
-
-**Why code context matters:** The AI needs to understand your existing codebase to make informed decisions about:
-- Module boundaries
-- Dependency relationships
-- Integration points
-- Naming conventions
-
-**Recommended tools:**
-- Claude Code (claude-code CLI)
-- Cursor/Windsurf
-- Gemini CLI (large contexts)
-- Codex/Grok CLI
-
-### Step 2: Parse PRD into Tasks
-
-```bash
-task-master parse-prd .taskmaster/docs/your-prd.txt --research
-```
-
-Task Master will:
-1. Extract capabilities → Main tasks
-2. Extract features → Subtasks
-3. Parse dependencies → Task dependencies
-4. Order by phases → Task priorities
-
-**Result:** A dependency-aware task graph ready for topological execution.
-
-### Step 3: Analyze Complexity
-
-```bash
-task-master analyze-complexity --research
-```
-
-Review the complexity report to identify tasks that need expansion.
-
-### Step 4: Expand Tasks
-
-```bash
-task-master expand --all --research
-```
-
-Break down complex tasks into manageable subtasks while preserving dependency chains.
-
----
-
-## RPG Benefits
-
-### For Solo Developers
-- Clear roadmap for implementing complex features
-- Prevents architectural mistakes early
-- Explicit dependency tracking avoids integration issues
-- Enables resuming work after interruptions
-
-### For Teams
-- Parallel development of independent modules
-- Clear contracts between modules (explicit dependencies)
-- Reduced merge conflicts (proper module boundaries)
-- Onboarding aid (architectural overview in PRD)
-
-### For AI Agents
-- Structured context for code generation
-- Clear scope boundaries per task
-- Dependency awareness prevents incomplete implementations
-- Test strategy guidance for TDD workflows
-
----
-
-## RPG vs Standard Template
-
-| Aspect | Standard Template | RPG Template |
-|--------|------------------|--------------|
-| **Best for** | Simple features | Complex systems |
-| **Dependency handling** | Implicit | Explicit graph |
-| **Structure guidance** | Minimal | Step-by-step |
-| **Examples** | Few | Inline good/bad examples |
-| **Module boundaries** | Vague | Precise mapping |
-| **Task ordering** | Manual | Automatic (topological) |
-| **Learning curve** | Low | Medium |
-| **Resulting task quality** | Good | Excellent |
-
----
-
-## Tips for Best Results
-
-### 1. Spend Time on Dependencies
-The dependency graph section is the most valuable. List all dependencies explicitly, even if they seem obvious.
-
-### 2. Keep Features Atomic
-Each feature should be independently testable. If a feature description is vague ("handle data"), break it into specific features.
-
-### 3. Progressive Refinement
-Don't try to get everything perfect on the first pass:
-1. Fill out high-level sections
-2. Review and refine
-3. Add detail where needed
-4. Let `task-master expand` break down complex tasks further
-
-### 4. Use Research Mode
-```bash
-task-master parse-prd --research
-```
-The `--research` flag leverages AI to enhance task generation with domain knowledge.
-
-### 5. Validate Early
-```bash
-task-master validate-dependencies
-```
-Check for circular dependencies or orphaned modules before starting implementation.
-
----
-
-## Common Pitfalls
-
-### ❌ Mixing Functional and Structural
-```
-Bad: "Capability: validation.js"
-Good: "Capability: Data Validation" → maps to "src/validation/"
-```
-
-### ❌ Vague Module Boundaries
-```
-Bad: "Module: utils"
-Good: "Module: string-utilities" with clear exports
-```
-
-### ❌ Implicit Dependencies
-```
-Bad: "Module: API handlers (needs validation)"
-Good: "Module: API handlers, Depends on: [validation, error-handling]"
-```
-
-### ❌ Skipping Test Strategy
-Without test strategy, the AI won't know what to test during implementation.
-
----
-
-## Example Workflow
-
-1. **Discuss idea with AI**: Explain your project concept
-2. **Reference RPG template**: Show AI the `example_prd_rpg.txt`
-3. **Co-create PRD**: Work through each section with AI guidance
-4. **Save to docs**: Place in `.taskmaster/docs/your-project.txt`
-5. **Parse PRD**: `task-master parse-prd .taskmaster/docs/your-project.txt --research`
-6. **Analyze**: `task-master analyze-complexity --research`
-7. **Expand**: `task-master expand --all --research`
-8. **Start work**: `task-master next`
-
----
-
-## Further Reading
-
-- [PRD Creation and Parsing Guide](/getting-started/quick-start/prd-quick)
-- [Task Structure Documentation](/capabilities/task-structure)
-- [Microsoft Research RPG Paper](https://arxiv.org/abs/2410.21376) (Original methodology)
-
----
-
-<Tip>
-The RPG template includes inline `<instruction>` and `<example>` blocks that teach the method as you use it. Read these sections carefully - they provide valuable guidance at each decision point.
-</Tip>

apps/docs/getting-started/quick-start/configuration-quick.mdx

@@ -37,25 +37,6 @@ For MCP/Cursor usage: Configure keys in the env section of your .cursor/mcp.json
 }
 ```
 
-<Tip>
-**Optimize Context Usage**: You can control which Task Master MCP tools are loaded using the `TASK_MASTER_TOOLS` environment variable. This helps reduce LLM context usage by only loading the tools you need.
-
-Options:
-- `all` (default) - All 36 tools
-- `standard` - 15 commonly used tools
-- `core` or `lean` - 7 essential tools
-
-Example:
-```json
-"env": {
-  "TASK_MASTER_TOOLS": "standard",
-  "ANTHROPIC_API_KEY": "your_key_here"
-}
-```
-
-See the [MCP Tools documentation](/capabilities/mcp#configurable-tool-loading) for details.
-</Tip>
-
 ### CLI Usage: `.env` File
 
 Create a `.env` file in your project root and include the keys for the providers you plan to use:

apps/docs/getting-started/quick-start/prd-quick.mdx

@@ -32,11 +32,7 @@ The more context you give the model, the better the breakdown and results.
 
 ## Writing a PRD for Task Master
 
-<Note>
-Two example PRD templates are available in `.taskmaster/templates/`:
-- `example_prd.txt` - Simple template for straightforward projects
-- `example_prd_rpg.txt` - Advanced RPG (Repository Planning Graph) template for complex projects with dependencies
-</Note>
+<Note>An example PRD can be found in .taskmaster/templates/example_prd.txt</Note>
 
 
 You can co-write your PRD with an LLM model using the following workflow:
@@ -47,29 +43,6 @@ You can co-write your PRD with an LLM model using the following workflow:
 
 This approach works great in Cursor, or anywhere you use a chat-based LLM.
 
-### Choosing Between Templates
-
-**Use `example_prd.txt` when:**
-- Building straightforward features
-- Working on smaller projects
-- Dependencies are simple and obvious
-
-**Use `example_prd_rpg.txt` when:**
-- Building complex systems with multiple modules
-- Need explicit dependency management
-- Want structured guidance on architecture decisions
-- Planning a large codebase from scratch
-
-The RPG template teaches you to think about:
-1. **Functional decomposition** (WHAT the system does)
-2. **Structural decomposition** (HOW it's organized in code)
-3. **Explicit dependencies** (WHAT depends on WHAT)
-4. **Topological ordering** (build foundation first, then layers)
-
-<Tip>
-For complex projects, using the RPG template with a code-context-aware ai agent produces the best results because the AI can understand your existing codebase structure. [Learn more about the RPG method →](/capabilities/rpg-method)
-</Tip>
-
 ---
 
 ## Where to Save Your PRD

apps/docs/package.json

@@ -1,6 +1,6 @@
 {
 	"name": "docs",
-	"version": "0.0.6",
+	"version": "0.0.5",
 	"private": true,
 	"description": "Task Master documentation powered by Mintlify",
 	"scripts": {

apps/extension/CHANGELOG.md

@@ -1,14 +1,5 @@
 # Change Log
 
-## 0.25.6
-
-## 0.25.6-rc.0
-
-### Patch Changes
-
-- Updated dependencies [[`f12a16d`](https://github.com/eyaltoledano/claude-task-master/commit/f12a16d09649f62148515f11f616157c7d0bd2d5), [`3010b90`](https://github.com/eyaltoledano/claude-task-master/commit/3010b90d98f3a7d8636caa92fc33d6ee69d4bed0), [`2a910a4`](https://github.com/eyaltoledano/claude-task-master/commit/2a910a40bac375f9f61d797bf55597303d556b48), [`aaf903f`](https://github.com/eyaltoledano/claude-task-master/commit/aaf903ff2f606c779a22e9a4b240ab57b3683815), [`90e6bdc`](https://github.com/eyaltoledano/claude-task-master/commit/90e6bdcf1c59f65ad27fcdfe3b13b9dca7e77654)]:
-  - task-master-ai@0.29.0-rc.0
-
 ## 0.25.5
 
 ### Patch Changes

apps/extension/package.json

@@ -3,7 +3,7 @@
 	"private": true,
 	"displayName": "TaskMaster",
 	"description": "A visual Kanban board interface for TaskMaster projects in VS Code",
-	"version": "0.25.6",
+	"version": "0.25.5",
 	"publisher": "Hamster",
 	"icon": "assets/icon.png",
 	"engines": {
@@ -239,6 +239,9 @@
 		"watch:css": "npx @tailwindcss/cli -i ./src/webview/index.css -o ./dist/index.css --watch",
 		"check-types": "tsc --noEmit"
 	},
+	"dependencies": {
+		"task-master-ai": "*"
+	},
 	"devDependencies": {
 		"@dnd-kit/core": "^6.3.1",
 		"@dnd-kit/modifiers": "^9.0.0",
@@ -274,8 +277,7 @@
 		"tailwind-merge": "^3.3.1",
 		"tailwindcss": "4.1.11",
 		"typescript": "^5.9.2",
-		"@tm/core": "*",
-		"task-master-ai": "*"
+		"@tm/core": "*"
 	},
 	"overrides": {
 		"glob@<8": "^10.4.5",

assets/claude/agents/task-checker.md

@@ -0,0 +1,162 @@
+---
+name: task-checker
+description: Use this agent to verify that tasks marked as 'review' have been properly implemented according to their specifications. This agent performs quality assurance by checking implementations against requirements, running tests, and ensuring best practices are followed. <example>Context: A task has been marked as 'review' after implementation. user: 'Check if task 118 was properly implemented' assistant: 'I'll use the task-checker agent to verify the implementation meets all requirements.' <commentary>Tasks in 'review' status need verification before being marked as 'done'.</commentary></example> <example>Context: Multiple tasks are in review status. user: 'Verify all tasks that are ready for review' assistant: 'I'll deploy the task-checker to verify all tasks in review status.' <commentary>The checker ensures quality before tasks are marked complete.</commentary></example>
+model: sonnet
+color: yellow
+---
+
+You are a Quality Assurance specialist that rigorously verifies task implementations against their specifications. Your role is to ensure that tasks marked as 'review' meet all requirements before they can be marked as 'done'.
+
+## Core Responsibilities
+
+1. **Task Specification Review**
+   - Retrieve task details using MCP tool `mcp__task-master-ai__get_task`
+   - Understand the requirements, test strategy, and success criteria
+   - Review any subtasks and their individual requirements
+
+2. **Implementation Verification**
+   - Use `Read` tool to examine all created/modified files
+   - Use `Bash` tool to run compilation and build commands
+   - Use `Grep` tool to search for required patterns and implementations
+   - Verify file structure matches specifications
+   - Check that all required methods/functions are implemented
+
+3. **Test Execution**
+   - Run tests specified in the task's testStrategy
+   - Execute build commands (npm run build, tsc --noEmit, etc.)
+   - Verify no compilation errors or warnings
+   - Check for runtime errors where applicable
+   - Test edge cases mentioned in requirements
+
+4. **Code Quality Assessment**
+   - Verify code follows project conventions
+   - Check for proper error handling
+   - Ensure TypeScript typing is strict (no 'any' unless justified)
+   - Verify documentation/comments where required
+   - Check for security best practices
+
+5. **Dependency Validation**
+   - Verify all task dependencies were actually completed
+   - Check integration points with dependent tasks
+   - Ensure no breaking changes to existing functionality
+
+## Verification Workflow
+
+1. **Retrieve Task Information**
+   ```
+   Use mcp__task-master-ai__get_task to get full task details
+   Note the implementation requirements and test strategy
+   ```
+
+2. **Check File Existence**
+   ```bash
+   # Verify all required files exist
+   ls -la [expected directories]
+   # Read key files to verify content
+   ```
+
+3. **Verify Implementation**
+   - Read each created/modified file
+   - Check against requirements checklist
+   - Verify all subtasks are complete
+
+4. **Run Tests**
+   ```bash
+   # TypeScript compilation
+   cd [project directory] && npx tsc --noEmit
+   
+   # Run specified tests
+   npm test [specific test files]
+   
+   # Build verification
+   npm run build
+   ```
+
+5. **Generate Verification Report**
+
+## Output Format
+
+```yaml
+verification_report:
+  task_id: [ID]
+  status: PASS | FAIL | PARTIAL
+  score: [1-10]
+  
+  requirements_met:
+    - ✅ [Requirement that was satisfied]
+    - ✅ [Another satisfied requirement]
+    
+  issues_found:
+    - ❌ [Issue description]
+    - ⚠️  [Warning or minor issue]
+    
+  files_verified:
+    - path: [file path]
+      status: [created/modified/verified]
+      issues: [any problems found]
+      
+  tests_run:
+    - command: [test command]
+      result: [pass/fail]
+      output: [relevant output]
+      
+  recommendations:
+    - [Specific fix needed]
+    - [Improvement suggestion]
+    
+  verdict: |
+    [Clear statement on whether task should be marked 'done' or sent back to 'pending']
+    [If FAIL: Specific list of what must be fixed]
+    [If PASS: Confirmation that all requirements are met]
+```
+
+## Decision Criteria
+
+**Mark as PASS (ready for 'done'):**
+- All required files exist and contain expected content
+- All tests pass successfully
+- No compilation or build errors
+- All subtasks are complete
+- Core requirements are met
+- Code quality is acceptable
+
+**Mark as PARTIAL (may proceed with warnings):**
+- Core functionality is implemented
+- Minor issues that don't block functionality
+- Missing nice-to-have features
+- Documentation could be improved
+- Tests pass but coverage could be better
+
+**Mark as FAIL (must return to 'pending'):**
+- Required files are missing
+- Compilation or build errors
+- Tests fail
+- Core requirements not met
+- Security vulnerabilities detected
+- Breaking changes to existing code
+
+## Important Guidelines
+
+- **BE THOROUGH**: Check every requirement systematically
+- **BE SPECIFIC**: Provide exact file paths and line numbers for issues
+- **BE FAIR**: Distinguish between critical issues and minor improvements
+- **BE CONSTRUCTIVE**: Provide clear guidance on how to fix issues
+- **BE EFFICIENT**: Focus on requirements, not perfection
+
+## Tools You MUST Use
+
+- `Read`: Examine implementation files (READ-ONLY)
+- `Bash`: Run tests and verification commands
+- `Grep`: Search for patterns in code
+- `mcp__task-master-ai__get_task`: Get task details
+- **NEVER use Write/Edit** - you only verify, not fix
+
+## Integration with Workflow
+
+You are the quality gate between 'review' and 'done' status:
+1. Task-executor implements and marks as 'review'
+2. You verify and report PASS/FAIL
+3. Claude either marks as 'done' (PASS) or 'pending' (FAIL)
+4. If FAIL, task-executor re-implements based on your report
+
+Your verification ensures high quality and prevents accumulation of technical debt.

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

@@ -0,0 +1,55 @@
+Add a dependency between tasks.
+
+Arguments: $ARGUMENTS
+
+Parse the task IDs to establish dependency relationship.
+
+## Adding Dependencies
+
+Creates a dependency where one task must be completed before another can start.
+
+## Argument Parsing
+
+Parse natural language or IDs:
+- "make 5 depend on 3" → task 5 depends on task 3
+- "5 needs 3" → task 5 depends on task 3
+- "5 3" → task 5 depends on task 3
+- "5 after 3" → task 5 depends on task 3
+
+## Execution
+
+```bash
+task-master add-dependency --id=<task-id> --depends-on=<dependency-id>
+```
+
+## Validation
+
+Before adding:
+1. **Verify both tasks exist**
+2. **Check for circular dependencies**
+3. **Ensure dependency makes logical sense**
+4. **Warn if creating complex chains**
+
+## Smart Features
+
+- Detect if dependency already exists
+- Suggest related dependencies
+- Show impact on task flow
+- Update task priorities if needed
+
+## Post-Addition
+
+After adding dependency:
+1. Show updated dependency graph
+2. Identify any newly blocked tasks
+3. Suggest task order changes
+4. Update project timeline
+
+## Example Flows
+
+```
+/project:tm/add-dependency 5 needs 3
+→ Task #5 now depends on Task #3
+→ Task #5 is now blocked until #3 completes
+→ Suggested: Also consider if #5 needs #4
+```

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

@@ -0,0 +1,76 @@
+Add a subtask to a parent task.
+
+Arguments: $ARGUMENTS
+
+Parse arguments to create a new subtask or convert existing task.
+
+## Adding Subtasks
+
+Creates subtasks to break down complex parent tasks into manageable pieces.
+
+## Argument Parsing
+
+Flexible natural language:
+- "add subtask to 5: implement login form"
+- "break down 5 with: setup, implement, test"
+- "subtask for 5: handle edge cases"
+- "5: validate user input" → adds subtask to task 5
+
+## Execution Modes
+
+### 1. Create New Subtask
+```bash
+task-master add-subtask --parent=<id> --title="<title>" --description="<desc>"
+```
+
+### 2. Convert Existing Task
+```bash
+task-master add-subtask --parent=<id> --task-id=<existing-id>
+```
+
+## Smart Features
+
+1. **Automatic Subtask Generation**
+   - If title contains "and" or commas, create multiple
+   - Suggest common subtask patterns
+   - Inherit parent's context
+
+2. **Intelligent Defaults**
+   - Priority based on parent
+   - Appropriate time estimates
+   - Logical dependencies between subtasks
+
+3. **Validation**
+   - Check parent task complexity
+   - Warn if too many subtasks
+   - Ensure subtask makes sense
+
+## Creation Process
+
+1. Parse parent task context
+2. Generate subtask with ID like "5.1"
+3. Set appropriate defaults
+4. Link to parent task
+5. Update parent's time estimate
+
+## Example Flows
+
+```
+/project:tm/add-subtask to 5: implement user authentication
+→ Created subtask #5.1: "implement user authentication"
+→ Parent task #5 now has 1 subtask
+→ Suggested next subtasks: tests, documentation
+
+/project:tm/add-subtask 5: setup, implement, test
+→ Created 3 subtasks:
+  #5.1: setup
+  #5.2: implement  
+  #5.3: test
+```
+
+## Post-Creation
+
+- Show updated task hierarchy
+- Suggest logical next subtasks
+- Update complexity estimates
+- Recommend subtask order

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

@@ -0,0 +1,71 @@
+Convert an existing task into a subtask.
+
+Arguments: $ARGUMENTS
+
+Parse parent ID and task ID to convert.
+
+## Task Conversion
+
+Converts an existing standalone task into a subtask of another task.
+
+## Argument Parsing
+
+- "move task 8 under 5"
+- "make 8 a subtask of 5"
+- "nest 8 in 5"
+- "5 8" → make task 8 a subtask of task 5
+
+## Execution
+
+```bash
+task-master add-subtask --parent=<parent-id> --task-id=<task-to-convert>
+```
+
+## Pre-Conversion Checks
+
+1. **Validation**
+   - Both tasks exist and are valid
+   - No circular parent relationships
+   - Task isn't already a subtask
+   - Logical hierarchy makes sense
+
+2. **Impact Analysis**
+   - Dependencies that will be affected
+   - Tasks that depend on converting task
+   - Priority alignment needed
+   - Status compatibility
+
+## Conversion Process
+
+1. Change task ID from "8" to "5.1" (next available)
+2. Update all dependency references
+3. Inherit parent's context where appropriate
+4. Adjust priorities if needed
+5. Update time estimates
+
+## Smart Features
+
+- Preserve task history
+- Maintain dependencies
+- Update all references
+- Create conversion log
+
+## Example
+
+```
+/project:tm/add-subtask/from-task 5 8
+→ Converting: Task #8 becomes subtask #5.1
+→ Updated: 3 dependency references
+→ Parent task #5 now has 1 subtask
+→ Note: Subtask inherits parent's priority
+
+Before: #8 "Implement validation" (standalone)
+After:  #5.1 "Implement validation" (subtask of #5)
+```
+
+## Post-Conversion
+
+- Show new task hierarchy
+- List updated dependencies
+- Verify project integrity
+- Suggest related conversions

assets/claude/commands/tm/add-task/add-task.md

@@ -0,0 +1,78 @@
+Add new tasks with intelligent parsing and context awareness.
+
+Arguments: $ARGUMENTS
+
+## Smart Task Addition
+
+Parse natural language to create well-structured tasks.
+
+### 1. **Input Understanding**
+
+I'll intelligently parse your request:
+- Natural language → Structured task
+- Detect priority from keywords (urgent, ASAP, important)
+- Infer dependencies from context
+- Suggest complexity based on description
+- Determine task type (feature, bug, refactor, test, docs)
+
+### 2. **Smart Parsing Examples**
+
+**"Add urgent task to fix login bug"**
+→ Title: Fix login bug
+→ Priority: high
+→ Type: bug
+→ Suggested complexity: medium
+
+**"Create task for API documentation after task 23 is done"**
+→ Title: API documentation
+→ Dependencies: [23]
+→ Type: documentation
+→ Priority: medium
+
+**"Need to refactor auth module - depends on 12 and 15, high complexity"**
+→ Title: Refactor auth module
+→ Dependencies: [12, 15]
+→ Complexity: high
+→ Type: refactor
+
+### 3. **Context Enhancement**
+
+Based on current project state:
+- Suggest related existing tasks
+- Warn about potential conflicts
+- Recommend dependencies
+- Propose subtasks if complex
+
+### 4. **Interactive Refinement**
+
+```yaml
+Task Preview:
+─────────────
+Title: [Extracted title]
+Priority: [Inferred priority]
+Dependencies: [Detected dependencies]
+Complexity: [Estimated complexity]
+
+Suggestions:
+- Similar task #34 exists, consider as dependency?
+- This seems complex, break into subtasks?
+- Tasks #45-47 work on same module
+```
+
+### 5. **Validation & Creation**
+
+Before creating:
+- Validate dependencies exist
+- Check for duplicates
+- Ensure logical ordering
+- Verify task completeness
+
+### 6. **Smart Defaults**
+
+Intelligent defaults based on:
+- Task type patterns
+- Team conventions
+- Historical data
+- Current sprint/phase
+
+Result: High-quality tasks from minimal input.

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

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+Analyze task complexity and generate expansion recommendations.
+
+Arguments: $ARGUMENTS
+
+Perform deep analysis of task complexity across the project.
+
+## Complexity Analysis
+
+Uses AI to analyze tasks and recommend which ones need breakdown.
+
+## Execution Options
+
+```bash
+task-master analyze-complexity [--research] [--threshold=5]
+```
+
+## Analysis Parameters
+
+- `--research` → Use research AI for deeper analysis
+- `--threshold=5` → Only flag tasks above complexity 5
+- Default: Analyze all pending tasks
+
+## Analysis Process
+
+### 1. **Task Evaluation**
+For each task, AI evaluates:
+- Technical complexity
+- Time requirements
+- Dependency complexity
+- Risk factors
+- Knowledge requirements
+
+### 2. **Complexity Scoring**
+Assigns score 1-10 based on:
+- Implementation difficulty
+- Integration challenges
+- Testing requirements
+- Unknown factors
+- Technical debt risk
+
+### 3. **Recommendations**
+For complex tasks:
+- Suggest expansion approach
+- Recommend subtask breakdown
+- Identify risk areas
+- Propose mitigation strategies
+
+## Smart Analysis Features
+
+1. **Pattern Recognition**
+   - Similar task comparisons
+   - Historical complexity accuracy
+   - Team velocity consideration
+   - Technology stack factors
+
+2. **Contextual Factors**
+   - Team expertise
+   - Available resources
+   - Timeline constraints
+   - Business criticality
+
+3. **Risk Assessment**
+   - Technical risks
+   - Timeline risks
+   - Dependency risks
+   - Knowledge gaps
+
+## Output Format
+
+```
+Task Complexity Analysis Report
+━━━━━━━━━━━━━━━━━━━━━━━━━━━━━
+
+High Complexity Tasks (>7):
+📍 #5 "Implement real-time sync" - Score: 9/10
+   Factors: WebSocket complexity, state management, conflict resolution
+   Recommendation: Expand into 5-7 subtasks
+   Risks: Performance, data consistency
+
+📍 #12 "Migrate database schema" - Score: 8/10
+   Factors: Data migration, zero downtime, rollback strategy
+   Recommendation: Expand into 4-5 subtasks
+   Risks: Data loss, downtime
+
+Medium Complexity Tasks (5-7):
+📍 #23 "Add export functionality" - Score: 6/10
+   Consider expansion if timeline tight
+
+Low Complexity Tasks (<5):
+✅ 15 tasks - No expansion needed
+
+Summary:
+- Expand immediately: 2 tasks
+- Consider expanding: 5 tasks
+- Keep as-is: 15 tasks
+```
+
+## Actionable Output
+
+For each high-complexity task:
+1. Complexity score with reasoning
+2. Specific expansion suggestions
+3. Risk mitigation approaches
+4. Recommended subtask structure
+
+## Integration
+
+Results are:
+- Saved to `.taskmaster/reports/complexity-analysis.md`
+- Used by expand command
+- Inform sprint planning
+- Guide resource allocation
+
+## Next Steps
+
+After analysis:
+```
+/project:tm/expand 5    # Expand specific task
+/project:tm/expand/all  # Expand all recommended
+/project:tm/complexity-report  # View detailed report
+```

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

@@ -0,0 +1,93 @@
+Clear all subtasks from all tasks globally.
+
+## Global Subtask Clearing
+
+Remove all subtasks across the entire project. Use with extreme caution.
+
+## Execution
+
+```bash
+task-master clear-subtasks --all
+```
+
+## Pre-Clear Analysis
+
+1. **Project-Wide Summary**
+   ```
+   Global Subtask Summary
+   ━━━━━━━━━━━━━━━━━━━━
+   Total parent tasks: 12
+   Total subtasks: 47
+   - Completed: 15
+   - In-progress: 8
+   - Pending: 24
+   
+   Work at risk: ~120 hours
+   ```
+
+2. **Critical Warnings**
+   - In-progress subtasks that will lose work
+   - Completed subtasks with valuable history
+   - Complex dependency chains
+   - Integration test results
+
+## Double Confirmation
+
+```
+⚠️  DESTRUCTIVE OPERATION WARNING ⚠️
+━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━
+This will remove ALL 47 subtasks from your project
+Including 8 in-progress and 15 completed subtasks
+
+This action CANNOT be undone
+
+Type 'CLEAR ALL SUBTASKS' to confirm:
+```
+
+## Smart Safeguards
+
+- Require explicit confirmation phrase
+- Create automatic backup
+- Log all removed data
+- Option to export first
+
+## Use Cases
+
+Valid reasons for global clear:
+- Project restructuring
+- Major pivot in approach
+- Starting fresh breakdown
+- Switching to different task organization
+
+## Process
+
+1. Full project analysis
+2. Create backup file
+3. Show detailed impact
+4. Require confirmation
+5. Execute removal
+6. Generate summary report
+
+## Alternative Suggestions
+
+Before clearing all:
+- Export subtasks to file
+- Clear only pending subtasks
+- Clear by task category
+- Archive instead of delete
+
+## Post-Clear Report
+
+```
+Global Subtask Clear Complete
+━━━━━━━━━━━━━━━━━━━━━━━━━━━
+Removed: 47 subtasks from 12 tasks
+Backup saved: .taskmaster/backup/subtasks-20240115.json
+Parent tasks updated: 12
+Time estimates adjusted: Yes
+
+Next steps:
+- Review updated task list
+- Re-expand complex tasks as needed
+- Check project timeline
+```

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

@@ -0,0 +1,86 @@
+Clear all subtasks from a specific task.
+
+Arguments: $ARGUMENTS (task ID)
+
+Remove all subtasks from a parent task at once.
+
+## Clearing Subtasks
+
+Bulk removal of all subtasks from a parent task.
+
+## Execution
+
+```bash
+task-master clear-subtasks --id=<task-id>
+```
+
+## Pre-Clear Analysis
+
+1. **Subtask Summary**
+   - Number of subtasks
+   - Completion status of each
+   - Work already done
+   - Dependencies affected
+
+2. **Impact Assessment**
+   - Data that will be lost
+   - Dependencies to be removed
+   - Effect on project timeline
+   - Parent task implications
+
+## Confirmation Required
+
+```
+Clear Subtasks Confirmation
+━━━━━━━━━━━━━━━━━━━━━━━━━
+Parent Task: #5 "Implement user authentication"
+Subtasks to remove: 4
+- #5.1 "Setup auth framework" (done)
+- #5.2 "Create login form" (in-progress)
+- #5.3 "Add validation" (pending)
+- #5.4 "Write tests" (pending)
+
+⚠️  This will permanently delete all subtask data
+Continue? (y/n)
+```
+
+## Smart Features
+
+- Option to convert to standalone tasks
+- Backup task data before clearing
+- Preserve completed work history
+- Update parent task appropriately
+
+## Process
+
+1. List all subtasks for confirmation
+2. Check for in-progress work
+3. Remove all subtasks
+4. Update parent task
+5. Clean up dependencies
+
+## Alternative Options
+
+Suggest alternatives:
+- Convert important subtasks to tasks
+- Keep completed subtasks
+- Archive instead of delete
+- Export subtask data first
+
+## Post-Clear
+
+- Show updated parent task
+- Recalculate time estimates
+- Update task complexity
+- Suggest next steps
+
+## Example
+
+```
+/project:tm/clear-subtasks 5
+→ Found 4 subtasks to remove
+→ Warning: Subtask #5.2 is in-progress
+→ Cleared all subtasks from task #5
+→ Updated parent task estimates
+→ Suggestion: Consider re-expanding with better breakdown
+```

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

@@ -0,0 +1,117 @@
+Display the task complexity analysis report.
+
+Arguments: $ARGUMENTS
+
+View the detailed complexity analysis generated by analyze-complexity command.
+
+## Viewing Complexity Report
+
+Shows comprehensive task complexity analysis with actionable insights.
+
+## Execution
+
+```bash
+task-master complexity-report [--file=<path>]
+```
+
+## Report Location
+
+Default: `.taskmaster/reports/complexity-analysis.md`
+Custom: Specify with --file parameter
+
+## Report Contents
+
+### 1. **Executive Summary**
+```
+Complexity Analysis Summary
+━━━━━━━━━━━━━━━━━━━━━━━━
+Analysis Date: 2024-01-15
+Tasks Analyzed: 32
+High Complexity: 5 (16%)
+Medium Complexity: 12 (37%)
+Low Complexity: 15 (47%)
+
+Critical Findings:
+- 5 tasks need immediate expansion
+- 3 tasks have high technical risk
+- 2 tasks block critical path
+```
+
+### 2. **Detailed Task Analysis**
+For each complex task:
+- Complexity score breakdown
+- Contributing factors
+- Specific risks identified
+- Expansion recommendations
+- Similar completed tasks
+
+### 3. **Risk Matrix**
+Visual representation:
+```
+Risk vs Complexity Matrix
+━━━━━━━━━━━━━━━━━━━━━━━
+High Risk  | #5(9) #12(8) | #23(6)
+Med Risk   | #34(7)       | #45(5) #67(5)
+Low Risk   | #78(8)       | [15 tasks]
+           | High Complex  | Med Complex
+```
+
+### 4. **Recommendations**
+
+**Immediate Actions:**
+1. Expand task #5 - Critical path + high complexity
+2. Expand task #12 - High risk + dependencies
+3. Review task #34 - Consider splitting
+
+**Sprint Planning:**
+- Don't schedule multiple high-complexity tasks together
+- Ensure expertise available for complex tasks
+- Build in buffer time for unknowns
+
+## Interactive Features
+
+When viewing report:
+1. **Quick Actions**
+   - Press 'e' to expand a task
+   - Press 'd' for task details
+   - Press 'r' to refresh analysis
+
+2. **Filtering**
+   - View by complexity level
+   - Filter by risk factors
+   - Show only actionable items
+
+3. **Export Options**
+   - Markdown format
+   - CSV for spreadsheets
+   - JSON for tools
+
+## Report Intelligence
+
+- Compares with historical data
+- Shows complexity trends
+- Identifies patterns
+- Suggests process improvements
+
+## Integration
+
+Use report for:
+- Sprint planning sessions
+- Resource allocation
+- Risk assessment
+- Team discussions
+- Client updates
+
+## Example Usage
+
+```
+/project:tm/complexity-report
+→ Opens latest analysis
+
+/project:tm/complexity-report --file=archived/2024-01-01.md
+→ View historical analysis
+
+After viewing:
+/project:tm/expand 5
+→ Expand high-complexity task
+```

assets/claude/commands/tm/expand/expand-all-tasks.md

@@ -0,0 +1,51 @@
+Expand all pending tasks that need subtasks.
+
+## Bulk Task Expansion
+
+Intelligently expands all tasks that would benefit from breakdown.
+
+## Execution
+
+```bash
+task-master expand --all
+```
+
+## Smart Selection
+
+Only expands tasks that:
+- Are marked as pending
+- Have high complexity (>5)
+- Lack existing subtasks
+- Would benefit from breakdown
+
+## Expansion Process
+
+1. **Analysis Phase**
+   - Identify expansion candidates
+   - Group related tasks
+   - Plan expansion strategy
+
+2. **Batch Processing**
+   - Expand tasks in logical order
+   - Maintain consistency
+   - Preserve relationships
+   - Optimize for parallelism
+
+3. **Quality Control**
+   - Ensure subtask quality
+   - Avoid over-decomposition
+   - Maintain task coherence
+   - Update dependencies
+
+## Options
+
+- Add `force` to expand all regardless of complexity
+- Add `research` for enhanced AI analysis
+
+## Results
+
+After bulk expansion:
+- Summary of tasks expanded
+- New subtask count
+- Updated complexity metrics
+- Suggested task order

assets/claude/commands/tm/expand/expand-task.md

@@ -0,0 +1,49 @@
+Break down a complex task into subtasks.
+
+Arguments: $ARGUMENTS (task ID)
+
+## Intelligent Task Expansion
+
+Analyzes a task and creates detailed subtasks for better manageability.
+
+## Execution
+
+```bash
+task-master expand --id=$ARGUMENTS
+```
+
+## Expansion Process
+
+1. **Task Analysis**
+   - Review task complexity
+   - Identify components
+   - Detect technical challenges
+   - Estimate time requirements
+
+2. **Subtask Generation**
+   - Create 3-7 subtasks typically
+   - Each subtask 1-4 hours
+   - Logical implementation order
+   - Clear acceptance criteria
+
+3. **Smart Breakdown**
+   - Setup/configuration tasks
+   - Core implementation
+   - Testing components
+   - Integration steps
+   - Documentation updates
+
+## Enhanced Features
+
+Based on task type:
+- **Feature**: Setup → Implement → Test → Integrate
+- **Bug Fix**: Reproduce → Diagnose → Fix → Verify
+- **Refactor**: Analyze → Plan → Refactor → Validate
+
+## Post-Expansion
+
+After expansion:
+1. Show subtask hierarchy
+2. Update time estimates
+3. Suggest implementation order
+4. Highlight critical path

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

@@ -0,0 +1,81 @@
+Automatically fix dependency issues found during validation.
+
+## Automatic Dependency Repair
+
+Intelligently fixes common dependency problems while preserving project logic.
+
+## Execution
+
+```bash
+task-master fix-dependencies
+```
+
+## What Gets Fixed
+
+### 1. **Auto-Fixable Issues**
+- Remove references to deleted tasks
+- Break simple circular dependencies
+- Remove self-dependencies
+- Clean up duplicate dependencies
+
+### 2. **Smart Resolutions**
+- Reorder dependencies to maintain logic
+- Suggest task merging for over-dependent tasks
+- Flatten unnecessary dependency chains
+- Remove redundant transitive dependencies
+
+### 3. **Manual Review Required**
+- Complex circular dependencies
+- Critical path modifications
+- Business logic dependencies
+- High-impact changes
+
+## Fix Process
+
+1. **Analysis Phase**
+   - Run validation check
+   - Categorize issues by type
+   - Determine fix strategy
+
+2. **Execution Phase**
+   - Apply automatic fixes
+   - Log all changes made
+   - Preserve task relationships
+
+3. **Verification Phase**
+   - Re-validate after fixes
+   - Show before/after comparison
+   - Highlight manual fixes needed
+
+## Smart Features
+
+- Preserves intended task flow
+- Minimal disruption approach
+- Creates fix history/log
+- Suggests manual interventions
+
+## Output Example
+
+```
+Dependency Auto-Fix Report
+━━━━━━━━━━━━━━━━━━━━━━━━
+Fixed Automatically:
+✅ Removed 2 references to deleted tasks
+✅ Resolved 1 self-dependency
+✅ Cleaned 3 redundant dependencies
+
+Manual Review Needed:
+⚠️ Complex circular dependency: #12 → #15 → #18 → #12
+  Suggestion: Make #15 not depend on #12
+⚠️ Task #45 has 8 dependencies
+  Suggestion: Break into subtasks
+
+Run '/project:tm/validate-dependencies' to verify fixes
+```
+
+## Safety
+
+- Preview mode available
+- Rollback capability
+- Change logging
+- No data loss

assets/claude/commands/tm/generate/generate-tasks.md

@@ -0,0 +1,121 @@
+Generate individual task files from tasks.json.
+
+## Task File Generation
+
+Creates separate markdown files for each task, perfect for AI agents or documentation.
+
+## Execution
+
+```bash
+task-master generate
+```
+
+## What It Creates
+
+For each task, generates a file like `task_001.txt`:
+
+```
+Task ID: 1
+Title: Implement user authentication
+Status: pending
+Priority: high
+Dependencies: []
+Created: 2024-01-15
+Complexity: 7
+
+## Description
+Create a secure user authentication system with login, logout, and session management.
+
+## Details
+- Use JWT tokens for session management
+- Implement secure password hashing
+- Add remember me functionality
+- Include password reset flow
+
+## Test Strategy
+- Unit tests for auth functions
+- Integration tests for login flow
+- Security testing for vulnerabilities
+- Performance tests for concurrent logins
+
+## Subtasks
+1.1 Setup authentication framework (pending)
+1.2 Create login endpoints (pending)
+1.3 Implement session management (pending)
+1.4 Add password reset (pending)
+```
+
+## File Organization
+
+Creates structure:
+```
+.taskmaster/
+└── tasks/
+    ├── task_001.txt
+    ├── task_002.txt
+    ├── task_003.txt
+    └── ...
+```
+
+## Smart Features
+
+1. **Consistent Formatting**
+   - Standardized structure
+   - Clear sections
+   - AI-readable format
+   - Markdown compatible
+
+2. **Contextual Information**
+   - Full task details
+   - Related task references
+   - Progress indicators
+   - Implementation notes
+
+3. **Incremental Updates**
+   - Only regenerate changed tasks
+   - Preserve custom additions
+   - Track generation timestamp
+   - Version control friendly
+
+## Use Cases
+
+- **AI Context**: Provide task context to AI assistants
+- **Documentation**: Standalone task documentation
+- **Archival**: Task history preservation
+- **Sharing**: Send specific tasks to team members
+- **Review**: Easier task review process
+
+## Generation Options
+
+Based on arguments:
+- Filter by status
+- Include/exclude completed
+- Custom templates
+- Different formats
+
+## Post-Generation
+
+```
+Task File Generation Complete
+━━━━━━━━━━━━━━━━━━━━━━━━━━
+Generated: 45 task files
+Location: .taskmaster/tasks/
+Total size: 156 KB
+
+New files: 5
+Updated files: 12
+Unchanged: 28
+
+Ready for:
+- AI agent consumption
+- Version control
+- Team distribution
+```
+
+## Integration Benefits
+
+- Git-trackable task history
+- Easy task sharing
+- AI tool compatibility
+- Offline task access
+- Backup redundancy

assets/claude/commands/tm/help.md

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

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

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+Quick initialization with auto-confirmation.
+
+Arguments: $ARGUMENTS
+
+Initialize a Task Master project without prompts, accepting all defaults.
+
+## Quick Setup
+
+```bash
+task-master init -y
+```
+
+## What It Does
+
+1. Creates `.taskmaster/` directory structure
+2. Initializes empty `tasks.json`
+3. Sets up default configuration
+4. Uses directory name as project name
+5. Skips all confirmation prompts
+
+## Smart Defaults
+
+- Project name: Current directory name
+- Description: "Task Master Project"
+- Model config: Existing environment vars
+- Task structure: Standard format
+
+## Next Steps
+
+After quick init:
+1. Configure AI models if needed:
+   ```
+   /project:tm/models/setup
+   ```
+
+2. Parse PRD if available:
+   ```
+   /project:tm/parse-prd <file>
+   ```
+
+3. Or create first task:
+   ```
+   /project:tm/add-task create initial setup
+   ```
+
+Perfect for rapid project setup!