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ros:main ros:docs/auto-update-20251018-163459 ros:next ros:docs/auto-update-20251018-142920 ros:ralph/batch.mcp.fixes ros:claude/issue-1284-20251008-1535 ros:docs/auto-update-20251018-091305 ros:docs/auto-update-20251018-090345 ros:ralph/fix/cleanup.cli.errors ros:docs/auto-update-20251016-203211 ros:ralph/fix/improve.display.errors.in.cli ros:ralph/feat/add.haiku ros:docs/auto-update-20251016-172454 ros:ralph/feat/add.prod.hamster ros:docs/auto-update-20251015-153234 ros:ralph/fix/auth.expiration.automatic.refresh ros:docs/auto-update-20251015-132656 ros:claude/issue-1041-20251007-1338 ros:ralph/chore/update.from.main.october ros:claude/issue-638-20251014-0756 ros:ralph/fix/auth.expiration ros:docs/auto-update-20251011-192126 ros:docs/auto-update-20251011-190128 ros:docs/auto-update-20251011-095449 ros:docs/auto-update-20251011-094059 ros:ralph/chore/fix.export.url ros:tdd-phase-0-implementation ros:claude/issue-542-20250908-1925 ros:docs/auto-update-20251008-130109 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..
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ros:docs/auto-update-20251018-163459 ros:next ros:docs/auto-update-20251018-142920 ros:ralph/batch.mcp.fixes ros:claude/issue-1284-20251008-1535 ros:docs/auto-update-20251018-091305 ros:docs/auto-update-20251018-090345 ros:ralph/fix/cleanup.cli.errors ros:docs/auto-update-20251016-203211 ros:ralph/fix/improve.display.errors.in.cli ros:ralph/feat/add.haiku ros:docs/auto-update-20251016-172454 ros:ralph/feat/add.prod.hamster ros:docs/auto-update-20251015-153234 ros:ralph/fix/auth.expiration.automatic.refresh ros:docs/auto-update-20251015-132656 ros:claude/issue-1041-20251007-1338 ros:main ros:ralph/chore/update.from.main.october ros:claude/issue-638-20251014-0756 ros:ralph/fix/auth.expiration ros:docs/auto-update-20251011-192126 ros:docs/auto-update-20251011-190128 ros:docs/auto-update-20251011-095449 ros:docs/auto-update-20251011-094059 ros:ralph/chore/fix.export.url ros:tdd-phase-0-implementation ros:claude/issue-542-20250908-1925 ros:docs/auto-update-20251008-130109 ros:ralph/feat/add.rpg.method ros:claude/issue-78-20251007-1339 ros:docs/auto-update-20251006-140421 ros:docs/auto-update-20251006-095549 ros:docs/auto-update-20251005-200502 ros:docs/auto-update-20251003-164720 ros:ralph/fix/pricing.showing.0 ros:feat-generate-object-refactor-v3 ros:claude/issue-1263-20251002-1252 ros:ralph/chore/update.from.main ros:ralph/chore/fix.env.variables.in.build ros:ralph/feat/improve.task.generation.and.prd.parsing ros:docs/auto-update-20250926-172134 ros:docs/auto-update-20250925-231114 ros:ralph/fix/set.subtask.parent.task.logic ros:claude/issue-1247-20250925-1920 ros:ralph/chore/adjust.ci.to.run.on.all.prs ros:docs/auto-update-20250923-161949 ros:ralph/fix/mcp.timeout.issues ros:ralph/fix/mintlify.broken.links ros:docs/auto-update-20250923-154500 ros:ralph/fix/cli.and.docs ros:ralph/chore/fix.ci.changesets.for.monorepos ros:docs/auto-update-20250922-175527 ros:docs/auto-update-20250922-175429 ros:ralph/merge.from.main ros:fix/metrics-workflow-debug 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ros:feat/add.claude.code.subagents ros:feat/add.code.context.claude.code.p1 ros:fix/vscode.mcp.connection ros:chore/improve.release.ci.p3 ros:chore/improve.release.ci.p2 ros:chore/improve.release.ci ros:feat/improve.scope.up.and.scope.down ros:chore/fix.CI.p2 ros:chore/fix.CI ros:chore/fix.release ros:fix/vscode.scope.command ros:task-104 ros:fix-task-not-found ros:chore/create.scaffolding.for.vscode.extension ros:chore/prepare.tm-core ros:chore/improve.pull_request_template ros:feat/0.22.quick.improvements.before.release ros:chore/improve.pre-release-ci ros:fix/openrouter ros:feat/implement.start.mode ros:feat/experimental.improved.e2e ros:fix/mcp.issue.with.resourceTemplate ros:feat/implement.kiro.code.fix ros:fix/update.task.bug ros:chore/create.coderabbit.config ros:fix/merge.848 ros:chore/merge.main ros:fix/expand.task.for.mcp ros:fix/more.next.stability.fixes ros:fix/more.tasksPath.issues ros:fix/tasksPath.issue ros:fix/release.improvements.0.19 ros:chore/update.next.june 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ros:chore/manual.release ros:chore/test.pre-releases ros:hotfix/0.13.1 ros:revert-369-next ros:v0.13-touchups ros:fix/mcp.tool.bugs ros:fix-update-tasks-parsing ros:crunchyman/fix.env.variables.for.mcp ros:better-ai-model-management ros:fix/140-delete-multiple-tasks ros:fix/211-linux-container-init ros:ralph/improve.init ros:feat/improve.onboarding ros:feat.247 ros:fix/windows.issues.shebang ros:crunchyman/improve.readme ros:direct-function-paths ros:crunchyman/add.contributors.to.readme ros:remove-package-dependency ros:crunchyman/fix.license.duplicate ros:crunchyman/add.prettier.p2 ros:crunchyman/add.readme.mcp.setup ros:23.16-23.30 ros:crunchyman/add.prettier ros:recovered-work ros:crunchyman/add.ci.for.testing ros:revert-70-improve-analyze-complexity-UI ros:crunchyman/fix.github.actions.release ros:changeset-release/next ros:crunchyman/fix.npm.install.breaking ros:crunchyman/add.license ros:crunchyman/fix.add.task.mcp.tool ros:crunchyman/fix.workflows
ros:task-master-ai@0.30.0-rc.1 ros:task-master-ai@0.30.0-rc.0 ros:task-master-ai@0.29.0 ros:extension@0.25.6 ros:task-master-ai@0.29.0-rc.1 ros:task-master-ai@0.29.0-rc.0 ros:task-master-ai@0.28.0 ros:extension@0.25.5 ros:task-master-ai@0.28.0-rc.2 ros:task-master-ai@0.28.0-rc.1 ros:task-master-ai@0.28.0-rc.0 ros:task-master-ai@0.27.3 ros:extension@0.25.4 ros:task-master-ai@0.27.2 ros:extension@0.25.3 ros:task-master-ai@0.27.1 ros:extension@0.25.2 ros:task-master-ai@0.27.1-rc.1 ros:task-master-ai@0.27.1-rc.0 ros:extension@0.25.0 ros:task-master-ai@0.27.0-rc.2 ros:task-master-ai@1.0.0-rc.2 ros:task-master-ai@0.27.0-rc.1 ros:task-master-ai@0.27.0-rc.0 ros:task-master-ai@1.1.0-rc.0 ros:task-master-ai@0.26.0 ros:extension@0.24.2 ros:task-master-ai@0.26.0-rc.1 ros:task-master-ai@0.26.0-rc.0 ros:task-master-ai@0.25.1 ros:extension@0.24.1 ros:task-master-ai@0.25.0 ros:extension@0.24.0 ros:task-master-ai@0.25.0-rc.0 ros:task-master-ai@0.24.0 ros:extension@0.23.1 ros:task-master-ai@0.24.0-rc.2 ros:extension-rc@0.23.1-rc.1 ros:task-master-ai@0.24.0-rc.1 ros:extension-rc@0.23.1-rc.0 ros:task-master-ai@0.23.1-rc.0 ros:task-master-ai@0.23.0 ros:extension@0.23.0 ros:task-master-ai@0.23.0-rc.2 ros:task-master-ai@0.22.1-rc.1 ros:task-master-ai@0.22.1-rc.0 ros:task-master-ai@0.22.0 ros:task-master-ai@0.22.0-rc.0 ros:task-master-ai@0.21.0 ros:v0.20.0 ros:v0.20.0-rc.0 ros:v0.19.0 ros:v0.18.0 ros:v0.18.0-rc.0 ros:v0.17.1 ros:v0.17.0 ros:v0.17.0-rc.1 ros:v0.16.2 ros:v0.16.2-rc.0 ros:v0.16.1 ros:v0.16.0 ros:v0.16.0-rc.0 ros:v0.15.0 ros:v0.15.0-rc.0 ros:v0.14.0 ros:v0.14.0-rc.1 ros:v0.14.0-rc.0 ros:v0.13.2-rc.1 ros:v0.13.0-rc.2 ros:v0.13.0-rc.1 ros:v0.13.0-rc.0 ros:v0.13.1 ros:v0.13.0 ros:v0.12.0 ros:v0.12.1 ros:v0.11.0 ros:v0.11.1 ros:v0.10.1 ros:v0.10.2 ros:v0.9.30

4 Commits
task-maste ... feat/add-n

Author SHA1 Message Date
Ralph Khreish
5958a272ce chore: add changeset 2025-05-28 08:56:47 -04:00
Ralph Khreish
72a2154b01 chore: format 2025-05-28 08:53:48 -04:00
Amir Golan
471f152c1c chore: set nvm to 22, engines to 18 2025-05-28 08:51:45 -04:00
Amir Golan
f6142e56ca feat: Add .nvmrc and align engines to Node 20 2025-05-28 08:51:27 -04:00
932 changed files with 45200 additions and 171251 deletions
Expand all files Collapse all files

7
.changeset/auto-update-changelog-highlights.md
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@@ -1,7 +0,0 @@
---
"task-master-ai": minor
---
Add changelog highlights to auto-update notifications
When the CLI auto-updates to a new version, it now displays a "What's New" section.

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

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.changeset/hungry-geese-work.md Normal file
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---
'task-master-ai': minor
---
Add AWS bedrock support

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.changeset/itchy-taxes-sip.md Normal file
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---
'task-master-ai': minor
---
# Add Google Vertex AI Provider Integration
- Implemented `VertexAIProvider` class extending BaseAIProvider
- Added authentication and configuration handling for Vertex AI
- Updated configuration manager with Vertex-specific getters
- Modified AI services unified system to integrate the provider
- Added documentation for Vertex AI setup and configuration
- Updated environment variable examples for Vertex AI support
- Implemented specialized error handling for Vertex-specific issues

5
.changeset/lemon-apes-sort.md Normal file
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---
'task-master-ai': minor
---
Add support for Azure

47
.changeset/mean-planes-wave.md
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---
"task-master-ai": minor
---
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!

5
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@@ -0,0 +1,5 @@
---
"task-master-ai": minor
---
Increased minimum required node version to > 18 (was > 14)

17
.changeset/nice-ways-hope.md
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@@ -1,17 +0,0 @@
---
"task-master-ai": minor
---
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.

5
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@@ -0,0 +1,5 @@
---
'task-master-ai': minor
---
Renamed baseUrl to baseURL

7
.changeset/plain-falcons-serve.md
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@@ -1,7 +0,0 @@
---
"task-master-ai": patch
---
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.

21
.changeset/pre.json
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@@ -1,21 +0,0 @@
{
"mode": "exit",
"tag": "rc",
"initialVersions": {
"task-master-ai": "0.28.0",
"@tm/cli": "",
"docs": "0.0.5",
"extension": "0.25.5",
"@tm/ai-sdk-provider-grok-cli": "",
"@tm/build-config": "",
"@tm/claude-code-plugin": "0.0.1",
"@tm/core": ""
},
"changesets": [
"auto-update-changelog-highlights",
"mean-planes-wave",
"nice-ways-hope",
"plain-falcons-serve",
"smart-owls-relax"
]
}

5
.changeset/shaggy-rice-exist.md Normal file
View File

@@ -0,0 +1,5 @@
---
'task-master-ai': patch
---
Fix max_tokens error when trying to use claude-sonnet-4 and claude-opus-4

7
.changeset/sharp-flies-call.md Normal file
View File

@@ -0,0 +1,7 @@
---
'task-master-ai': minor
---
Add TASK_MASTER_PROJECT_ROOT env variable supported in mcp.json and .env for project root resolution
- Some users were having issues where the MCP wasn't able to detect the location of their project root, you can now set the `TASK_MASTER_PROJECT_ROOT` environment variable to the root of your project.

5
.changeset/silent-bushes-grow.md
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@@ -1,5 +0,0 @@
---
"task-master-ai": patch
---
Improve refresh token when authenticating

16
.changeset/smart-owls-relax.md
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@@ -1,16 +0,0 @@
---
"task-master-ai": minor
---
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.

5
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@@ -0,0 +1,5 @@
---
'task-master-ai': patch
---
Fix add-task MCP command causing an error

32
.claude-plugin/marketplace.json
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@@ -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"
}
]
}

147
.claude/TM_COMMANDS_GUIDE.md
View File

@@ -1,147 +0,0 @@
# Task Master Commands for Claude Code
Complete guide to using Task Master through Claude Code's slash commands.
## Overview
All Task Master functionality is available through the `/project:tm/` namespace with natural language support and intelligent features.
## Quick Start
```bash
# Install Task Master
/project:tm/setup/quick-install
# Initialize project
/project:tm/init/quick
# Parse requirements
/project:tm/parse-prd requirements.md
# Start working
/project:tm/next
```
## Command Structure
Commands are organized hierarchically to match Task Master's CLI:
- Main commands at `/project:tm/[command]`
- Subcommands for specific operations `/project:tm/[command]/[subcommand]`
- Natural language arguments accepted throughout
## Complete Command Reference
### Setup & Configuration
- `/project:tm/setup/install` - Full installation guide
- `/project:tm/setup/quick-install` - One-line install
- `/project:tm/init` - Initialize project
- `/project:tm/init/quick` - Quick init with -y
- `/project:tm/models` - View AI config
- `/project:tm/models/setup` - Configure AI
### Task Generation
- `/project:tm/parse-prd` - Generate from PRD
- `/project:tm/parse-prd/with-research` - Enhanced parsing
- `/project:tm/generate` - Create task files
### Task Management
- `/project:tm/list` - List with natural language filters
- `/project:tm/list/with-subtasks` - Hierarchical view
- `/project:tm/list/by-status <status>` - Filter by status
- `/project:tm/show <id>` - Task details
- `/project:tm/add-task` - Create task
- `/project:tm/update` - Update tasks
- `/project:tm/remove-task` - Delete task
### 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>`
### Task Analysis
- `/project:tm/analyze-complexity` - AI analysis
- `/project:tm/complexity-report` - View report
- `/project:tm/expand <id>` - Break down task
- `/project:tm/expand/all` - Expand all complex
### Dependencies
- `/project:tm/add-dependency` - Add dependency
- `/project:tm/remove-dependency` - Remove dependency
- `/project:tm/validate-dependencies` - Check issues
- `/project:tm/fix-dependencies` - Auto-fix
### Workflows
- `/project:tm/workflows/smart-flow` - Adaptive workflows
- `/project:tm/workflows/pipeline` - Chain commands
- `/project:tm/workflows/auto-implement` - AI implementation
### Utilities
- `/project:tm/status` - Project dashboard
- `/project:tm/next` - Next task recommendation
- `/project:tm/utils/analyze` - Project analysis
- `/project:tm/learn` - Interactive help
## Key Features
### Natural Language Support
All commands understand natural language:
```
/project:tm/list pending high priority
/project:tm/update mark 23 as done
/project:tm/add-task implement OAuth login
```
### Smart Context
Commands analyze project state and provide intelligent suggestions based on:
- Current task status
- Dependencies
- Team patterns
- Project phase
### Visual Enhancements
- Progress bars and indicators
- Status badges
- Organized displays
- Clear hierarchies
## Common Workflows
### Daily Development
```
/project:tm/workflows/smart-flow morning
/project:tm/next
/project:tm/set-status/to-in-progress <id>
/project:tm/set-status/to-done <id>
```
### Task Breakdown
```
/project:tm/show <id>
/project:tm/expand <id>
/project:tm/list/with-subtasks
```
### Sprint Planning
```
/project:tm/analyze-complexity
/project:tm/workflows/pipeline init → expand/all → status
```
## Migration from Old Commands
| Old | New |
|-----|-----|
| `/project:task-master:list` | `/project:tm/list` |
| `/project:task-master:complete` | `/project:tm/set-status/to-done` |
| `/project:workflows:auto-implement` | `/project:tm/workflows/auto-implement` |
## Tips
1. Use `/project:tm/` + Tab for command discovery
2. Natural language is supported everywhere
3. Commands provide smart defaults
4. Chain commands for automation
5. Check `/project:tm/learn` for interactive help

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

10
.coderabbit.yaml
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@@ -1,10 +0,0 @@
reviews:
profile: assertive
poem: false
auto_review:
base_branches:
- rc
- beta
- alpha
- production
- next

6
.cursor/mcp.json
View File

@@ -2,19 +2,17 @@
"mcpServers": {
"task-master-ai": {
"command": "node",
"args": ["./dist/mcp-server.js"],
"args": ["./mcp-server/server.js"],
"env": {
"ANTHROPIC_API_KEY": "ANTHROPIC_API_KEY_HERE",
"PERPLEXITY_API_KEY": "PERPLEXITY_API_KEY_HERE",
"OPENAI_API_KEY": "OPENAI_API_KEY_HERE",
"GOOGLE_API_KEY": "GOOGLE_API_KEY_HERE",
"GROQ_API_KEY": "GROQ_API_KEY_HERE",
"XAI_API_KEY": "XAI_API_KEY_HERE",
"OPENROUTER_API_KEY": "OPENROUTER_API_KEY_HERE",
"MISTRAL_API_KEY": "MISTRAL_API_KEY_HERE",
"AZURE_OPENAI_API_KEY": "AZURE_OPENAI_API_KEY_HERE",
"OLLAMA_API_KEY": "OLLAMA_API_KEY_HERE",
"GITHUB_API_KEY": "GITHUB_API_KEY_HERE"
"OLLAMA_API_KEY": "OLLAMA_API_KEY_HERE"
}
}
}

59
.cursor/rules/architecture.mdc
View File

@@ -20,21 +20,19 @@ alwaysApply: false
- **[`task-manager.js`](mdc:scripts/modules/task-manager.js) & `task-manager/` directory: Task Data & Core Logic**
- **Purpose**: Contains core functions for task data manipulation (CRUD), AI interactions, and related logic.
- **Responsibilities**:
- Reading/writing `tasks.json` with tagged task lists support.
- Reading/writing `tasks.json`.
- Implementing functions for task CRUD, parsing PRDs, expanding tasks, updating status, etc.
- **Tagged Task Lists**: Handles task organization across multiple contexts (tags) like "master", branch names, or project phases.
- **Tag Resolution**: Provides backward compatibility by resolving tagged format to legacy format transparently.
- **Delegating AI interactions** to the `ai-services-unified.js` layer.
- Accessing non-AI configuration via `config-manager.js` getters.
- **Key Files**: Individual files within `scripts/modules/task-manager/` handle specific actions (e.g., `add-task.js`, `expand-task.js`).
- **[`dependency-manager.js`](mdc:scripts/modules/dependency-manager.js): Dependency Management**
- **Purpose**: Manages task dependencies.
- **Responsibilities**: Add/remove/validate/fix dependencies across tagged task contexts.
- **Responsibilities**: Add/remove/validate/fix dependencies.
- **[`ui.js`](mdc:scripts/modules/ui.js): User Interface Components**
- **Purpose**: Handles CLI output formatting (tables, colors, boxes, spinners).
- **Responsibilities**: Displaying tasks, reports, progress, suggestions, and migration notices for tagged systems.
- **Responsibilities**: Displaying tasks, reports, progress, suggestions.
- **[`ai-services-unified.js`](mdc:scripts/modules/ai-services-unified.js): Unified AI Service Layer**
- **Purpose**: Centralized interface for all LLM interactions using Vercel AI SDK.
@@ -55,7 +53,6 @@ alwaysApply: false
- **Responsibilities** (See also: [`utilities.mdc`](mdc:.cursor/rules/utilities.mdc)):
- Reads and merges `.taskmasterconfig` with defaults.
- Provides getters (e.g., `getMainProvider`, `getLogLevel`, `getDefaultSubtasks`) for accessing settings.
- **Tag Configuration**: Manages `global.defaultTag` and `tags` section for tag system settings.
- **Note**: Does **not** store or directly handle API keys (keys are in `.env` or MCP `session.env`).
- **[`utils.js`](mdc:scripts/modules/utils.js): Core Utility Functions**
@@ -65,8 +62,6 @@ alwaysApply: false
- Task utils (`findTaskById`), Dependency utils (`findCycles`).
- API Key Resolution (`resolveEnvVariable`).
- Silent Mode Control (`enableSilentMode`, `disableSilentMode`).
- **Tagged Task Lists**: Silent migration system, tag resolution, current tag management.
- **Migration System**: `performCompleteTagMigration`, `migrateConfigJson`, `createStateJson`.
- **[`mcp-server/`](mdc:mcp-server/): MCP Server Integration**
- **Purpose**: Provides MCP interface using FastMCP.
@@ -76,42 +71,16 @@ alwaysApply: false
- Tool `execute` methods call **direct function wrappers** (`mcp-server/src/core/direct-functions/*.js`), passing the normalized `projectRoot` and other args.
- Direct functions use path utilities (`mcp-server/src/core/utils/`) to resolve paths based on `projectRoot` from session.
- Direct functions implement silent mode, logger wrappers, and call core logic functions from `scripts/modules/`.
- **Tagged Task Lists**: MCP tools fully support the tagged format with complete tag management capabilities.
- Manages MCP caching and response formatting.
- **[`init.js`](mdc:scripts/init.js): Project Initialization Logic**
- **Purpose**: Sets up new Task Master project structure.
- **Responsibilities**: Creates directories, copies templates, manages `package.json`, sets up `.cursor/mcp.json`, initializes state.json for tagged system.
## Tagged Task Lists System Architecture
**Data Structure**: Task Master now uses a tagged task lists system where the `tasks.json` file contains multiple named task lists as top-level keys:
```json
{
"master": {
"tasks": [/* standard task objects */]
},
"feature-branch": {
"tasks": [/* separate task context */]
}
}
```
**Key Components:**
- **Silent Migration**: Automatically transforms legacy `{"tasks": [...]}` format to tagged format `{"master": {"tasks": [...]}}` on first read
- **Tag Resolution Layer**: Provides 100% backward compatibility by intercepting tagged format and returning legacy format to existing code
- **Configuration Integration**: `global.defaultTag` and `tags` section in config.json manage tag system settings
- **State Management**: `.taskmaster/state.json` tracks current tag, migration status, and tag-branch mappings
- **Migration Notice**: User-friendly notification system for seamless migration experience
**Backward Compatibility**: All existing CLI commands and MCP tools continue to work unchanged. The tag resolution layer ensures that existing code receives the expected legacy format while the underlying storage uses the new tagged structure.
- **Responsibilities**: Creates directories, copies templates, manages `package.json`, sets up `.cursor/mcp.json`.
- **Data Flow and Module Dependencies (Updated)**:
- **CLI**: `bin/task-master.js` -> `scripts/dev.js` (loads `.env`) -> `scripts/modules/commands.js` -> Core Logic (`scripts/modules/*`) -> **Tag Resolution Layer** -> Unified AI Service (`ai-services-unified.js`) -> Provider Adapters -> LLM API.
- **MCP**: External Tool -> `mcp-server/server.js` -> Tool (`mcp-server/src/tools/*`) -> Direct Function (`mcp-server/src/core/direct-functions/*`) -> Core Logic (`scripts/modules/*`) -> **Tag Resolution Layer** -> Unified AI Service (`ai-services-unified.js`) -> Provider Adapters -> LLM API.
- **CLI**: `bin/task-master.js` -> `scripts/dev.js` (loads `.env`) -> `scripts/modules/commands.js` -> Core Logic (`scripts/modules/*`) -> Unified AI Service (`ai-services-unified.js`) -> Provider Adapters -> LLM API.
- **MCP**: External Tool -> `mcp-server/server.js` -> Tool (`mcp-server/src/tools/*`) -> Direct Function (`mcp-server/src/core/direct-functions/*`) -> Core Logic (`scripts/modules/*`) -> Unified AI Service (`ai-services-unified.js`) -> Provider Adapters -> LLM API.
- **Configuration**: Core logic needing non-AI settings calls `config-manager.js` getters (passing `session.env` via `explicitRoot` if from MCP). Unified AI Service internally calls `config-manager.js` getters (using `role`) for AI params and `utils.js` (`resolveEnvVariable` with `session.env`) for API keys.
## Silent Mode Implementation Pattern in MCP Direct Functions
@@ -228,7 +197,6 @@ By following these patterns consistently, direct functions will properly manage
- **Integration Tests**: Located in `tests/integration/`, test interactions between modules
- **End-to-End Tests**: Located in `tests/e2e/`, test complete workflows from a user perspective
- **Test Fixtures**: Located in `tests/fixtures/`, provide reusable test data
- **Tagged System Tests**: Test migration, tag resolution, and multi-context functionality
- **Module Design for Testability**:
- **Explicit Dependencies**: Functions accept their dependencies as parameters rather than using globals
@@ -237,14 +205,12 @@ By following these patterns consistently, direct functions will properly manage
- **Clear Module Interfaces**: Each module has well-defined exports that can be mocked in tests
- **Callback Isolation**: Callbacks are defined as separate functions for easier testing
- **Stateless Design**: Modules avoid maintaining internal state where possible
- **Tag Resolution Testing**: Test both tagged and legacy format handling
- **Mock Integration Patterns**:
- **External Libraries**: Libraries like `fs`, `commander`, and `@anthropic-ai/sdk` are mocked at module level
- **Internal Modules**: Application modules are mocked with appropriate spy functions
- **Testing Function Callbacks**: Callbacks are extracted from mock call arguments and tested in isolation
- **UI Elements**: Output functions from `ui.js` are mocked to verify display calls
- **Tagged Data Mocking**: Test both legacy and tagged task data structures
- **Testing Flow**:
- Module dependencies are mocked (following Jest's hoisting behavior)
@@ -252,7 +218,6 @@ By following these patterns consistently, direct functions will properly manage
- Spy functions are set up on module methods
- Tests call the functions under test and verify behavior
- Mocks are reset between test cases to maintain isolation
- Tagged system behavior is tested for both migration and normal operation
- **Benefits of this Architecture**:
@@ -261,11 +226,8 @@ By following these patterns consistently, direct functions will properly manage
- **Mocking Support**: The clear dependency boundaries make mocking straightforward
- **Test Isolation**: Each component can be tested without affecting others
- **Callback Testing**: Function callbacks can be extracted and tested independently
- **Multi-Context Testing**: Tagged system enables testing different task contexts independently
- **Reusability**: Utility functions and UI components can be reused across different parts of the application.
- **Scalability**: New features can be added as new modules or by extending existing ones without significantly impacting other parts of the application.
- **Multi-Context Support**: Tagged task lists enable working across different contexts (branches, environments, phases) without conflicts.
- **Backward Compatibility**: Seamless migration and tag resolution ensure existing workflows continue unchanged.
- **Clarity**: The modular structure provides a clear separation of concerns, making the codebase easier to navigate and understand for developers.
This architectural overview should help AI models understand the structure and organization of the Task Master CLI codebase, enabling them to more effectively assist with code generation, modification, and understanding.
@@ -287,7 +249,6 @@ Follow these steps to add MCP support for an existing Task Master command (see [
- Call core logic.
- Return `{ success: true/false, data/error, fromCache: boolean }`.
- Export the wrapper function.
- **Note**: Tag-aware MCP tools are fully implemented with complete tag management support.
3. **Update `task-master-core.js` with Import/Export**: Add imports/exports for the new `*Direct` function.
@@ -314,8 +275,12 @@ The `initialize_project` command provides a way to set up a new Task Master proj
- **MCP Tool**: `initialize_project`
- **Functionality**:
- Creates necessary directories and files for a new project
- Sets up `tasks.json` with tagged structure and initial task files
- Sets up `tasks.json` and initial task files
- Configures project metadata (name, description, version)
- Handles shell alias creation if requested
- Works in both interactive and non-interactive modes
- Creates necessary directories and files for a new project
- Sets up `tasks.json` and initial task files
- Configures project metadata (name, description, version)
- Initializes state.json for tag system
- Handles shell alias creation if requested
- Works in both interactive and non-interactive modes

64
.cursor/rules/commands.mdc
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@@ -329,60 +329,6 @@ When implementing commands that delete or remove data (like `remove-task` or `re
};
```
## Context-Aware Command Pattern
For AI-powered commands that benefit from project context, follow the research command pattern:
- **Context Integration**:
- ✅ DO: Use `ContextGatherer` utility for multi-source context extraction
- ✅ DO: Support task IDs, file paths, custom context, and project tree
- ✅ DO: Implement fuzzy search for automatic task discovery
- ✅ DO: Display detailed token breakdown for transparency
```javascript
// ✅ DO: Follow this pattern for context-aware commands
programInstance
.command('research')
.description('Perform AI-powered research queries with project context')
.argument('<prompt>', 'Research prompt to investigate')
.option('-i, --id <ids>', 'Comma-separated task/subtask IDs to include as context')
.option('-f, --files <paths>', 'Comma-separated file paths to include as context')
.option('-c, --context <text>', 'Additional custom context')
.option('--tree', 'Include project file tree structure')
.option('-d, --detail <level>', 'Output detail level: low, medium, high', 'medium')
.action(async (prompt, options) => {
// 1. Parameter validation and parsing
const taskIds = options.id ? parseTaskIds(options.id) : [];
const filePaths = options.files ? parseFilePaths(options.files) : [];
// 2. Initialize context gatherer
const projectRoot = findProjectRoot() || '.';
const gatherer = new ContextGatherer(projectRoot, tasksPath);
// 3. Auto-discover relevant tasks if none specified
if (taskIds.length === 0) {
const fuzzySearch = new FuzzyTaskSearch(tasksData.tasks, 'research');
const discoveredIds = fuzzySearch.getTaskIds(
fuzzySearch.findRelevantTasks(prompt)
);
taskIds.push(...discoveredIds);
}
// 4. Gather context with token breakdown
const contextResult = await gatherer.gather({
tasks: taskIds,
files: filePaths,
customContext: options.context,
includeProjectTree: options.projectTree,
format: 'research',
includeTokenCounts: true
});
// 5. Display token breakdown and execute AI call
// Implementation continues...
});
```
## Error Handling
- **Exception Management**:
@@ -523,7 +469,7 @@ For AI-powered commands that benefit from project context, follow the research c
.option('--details <details>', 'Implementation details for the new subtask, optional')
.option('--dependencies <ids>', 'Comma-separated list of subtask IDs this subtask depends on')
.option('--status <status>', 'Initial status for the subtask', 'pending')
.option('--generate', 'Regenerate task files after adding subtask')
.option('--skip-generate', 'Skip regenerating task files')
.action(async (options) => {
// Validate required parameters
if (!options.parent) {
@@ -545,7 +491,7 @@ For AI-powered commands that benefit from project context, follow the research c
.option('-f, --file <path>', 'Path to the tasks file', 'tasks/tasks.json')
.option('-i, --id <id>', 'ID of the subtask to remove in format parentId.subtaskId, required')
.option('-c, --convert', 'Convert the subtask to a standalone task instead of deleting')
.option('--generate', 'Regenerate task files after removing subtask')
.option('--skip-generate', 'Skip regenerating task files')
.action(async (options) => {
// Implementation with detailed error handling
})
@@ -633,11 +579,11 @@ function showAddSubtaskHelp() {
' --dependencies <ids> Comma-separated list of dependency IDs\n' +
' -s, --status <status> Status for the new subtask (default: "pending")\n' +
' -f, --file <file> Path to the tasks file (default: "tasks/tasks.json")\n' +
' --generate Regenerate task files after adding subtask\n\n' +
' --skip-generate Skip regenerating task files\n\n' +
chalk.cyan('Examples:') + '\n' +
' task-master add-subtask --parent=\'5\' --task-id=\'8\'\n' +
' task-master add-subtask -p \'5\' -t \'Implement login UI\' -d \'Create the login form\'\n' +
' task-master add-subtask -p \'5\' -t \'Handle API Errors\' --details "Handle 401 Unauthorized.\\nHandle 500 Server Error." --generate',
' task-master add-subtask -p \'5\' -t \'Handle API Errors\' --details $\'Handle 401 Unauthorized.\nHandle 500 Server Error.\'',
{ padding: 1, borderColor: 'blue', borderStyle: 'round' }
));
}
@@ -652,7 +598,7 @@ function showRemoveSubtaskHelp() {
' -i, --id <id> Subtask ID(s) to remove in format "parentId.subtaskId" (can be comma-separated, required)\n' +
' -c, --convert Convert the subtask to a standalone task instead of deleting it\n' +
' -f, --file <file> Path to the tasks file (default: "tasks/tasks.json")\n' +
' --generate Regenerate task files after removing subtask\n\n' +
' --skip-generate Skip regenerating task files\n\n' +
chalk.cyan('Examples:') + '\n' +
' task-master remove-subtask --id=\'5.2\'\n' +
' task-master remove-subtask --id=\'5.2,6.3,7.1\'\n' +

268
.cursor/rules/context_gathering.mdc
View File

@@ -1,268 +0,0 @@
---
description: Standardized patterns for gathering and processing context from multiple sources in Task Master commands, particularly for AI-powered features.
globs:
alwaysApply: false
---
# Context Gathering Patterns and Utilities
This document outlines the standardized patterns for gathering and processing context from multiple sources in Task Master commands, particularly for AI-powered features.
## Core Context Gathering Utility
The `ContextGatherer` class (`scripts/modules/utils/contextGatherer.js`) provides a centralized, reusable utility for extracting context from multiple sources:
### **Key Features**
- **Multi-source Context**: Tasks, files, custom text, project file tree
- **Token Counting**: Detailed breakdown using `gpt-tokens` library
- **Format Support**: Different output formats (research, chat, system-prompt)
- **Error Handling**: Graceful handling of missing files, invalid task IDs
- **Performance**: File size limits, depth limits for tree generation
### **Usage Pattern**
```javascript
import { ContextGatherer } from '../utils/contextGatherer.js';
// Initialize with project paths
const gatherer = new ContextGatherer(projectRoot, tasksPath);
// Gather context with detailed token breakdown
const result = await gatherer.gather({
tasks: ['15', '16.2'], // Task and subtask IDs
files: ['src/api.js', 'README.md'], // File paths
customContext: 'Additional context text',
includeProjectTree: true, // Include file tree
format: 'research', // Output format
includeTokenCounts: true // Get detailed token breakdown
});
// Access results
const contextString = result.context;
const tokenBreakdown = result.tokenBreakdown;
```
### **Token Breakdown Structure**
```javascript
{
customContext: { tokens: 150, characters: 800 },
tasks: [
{ id: '15', type: 'task', title: 'Task Title', tokens: 245, characters: 1200 },
{ id: '16.2', type: 'subtask', title: 'Subtask Title', tokens: 180, characters: 900 }
],
files: [
{ path: 'src/api.js', tokens: 890, characters: 4500, size: '4.5 KB' }
],
projectTree: { tokens: 320, characters: 1600 },
total: { tokens: 1785, characters: 8000 }
}
```
## Fuzzy Search Integration
The `FuzzyTaskSearch` class (`scripts/modules/utils/fuzzyTaskSearch.js`) provides intelligent task discovery:
### **Key Features**
- **Semantic Matching**: Uses Fuse.js for similarity scoring
- **Purpose Categories**: Pattern-based task categorization
- **Relevance Scoring**: High/medium/low relevance thresholds
- **Context-Aware**: Different search configurations for different use cases
### **Usage Pattern**
```javascript
import { FuzzyTaskSearch } from '../utils/fuzzyTaskSearch.js';
// Initialize with tasks data and context
const fuzzySearch = new FuzzyTaskSearch(tasksData.tasks, 'research');
// Find relevant tasks
const searchResults = fuzzySearch.findRelevantTasks(query, {
maxResults: 8,
includeRecent: true,
includeCategoryMatches: true
});
// Get task IDs for context gathering
const taskIds = fuzzySearch.getTaskIds(searchResults);
```
## Implementation Patterns for Commands
### **1. Context-Aware Command Structure**
```javascript
// In command action handler
async function commandAction(prompt, options) {
// 1. Parameter validation and parsing
const taskIds = options.id ? parseTaskIds(options.id) : [];
const filePaths = options.files ? parseFilePaths(options.files) : [];
// 2. Initialize context gatherer
const projectRoot = findProjectRoot() || '.';
const tasksPath = path.join(projectRoot, 'tasks', 'tasks.json');
const gatherer = new ContextGatherer(projectRoot, tasksPath);
// 3. Auto-discover relevant tasks if none specified
if (taskIds.length === 0) {
const fuzzySearch = new FuzzyTaskSearch(tasksData.tasks, 'research');
const discoveredIds = fuzzySearch.getTaskIds(
fuzzySearch.findRelevantTasks(prompt)
);
taskIds.push(...discoveredIds);
}
// 4. Gather context with token breakdown
const contextResult = await gatherer.gather({
tasks: taskIds,
files: filePaths,
customContext: options.context,
includeProjectTree: options.projectTree,
format: 'research',
includeTokenCounts: true
});
// 5. Display token breakdown (for CLI)
if (outputFormat === 'text') {
displayDetailedTokenBreakdown(contextResult.tokenBreakdown);
}
// 6. Use context in AI call
const aiResult = await generateTextService(role, session, systemPrompt, userPrompt);
// 7. Display results with enhanced formatting
displayResults(aiResult, contextResult.tokenBreakdown);
}
```
### **2. Token Display Pattern**
```javascript
function displayDetailedTokenBreakdown(tokenBreakdown, systemTokens, userTokens) {
const sections = [];
// Build context breakdown
if (tokenBreakdown.tasks?.length > 0) {
const taskDetails = tokenBreakdown.tasks.map(task =>
`${task.type === 'subtask' ? ' ' : ''}${task.id}: ${task.tokens.toLocaleString()}`
).join('\n');
sections.push(`Tasks (${tokenBreakdown.tasks.reduce((sum, t) => sum + t.tokens, 0).toLocaleString()}):\n${taskDetails}`);
}
if (tokenBreakdown.files?.length > 0) {
const fileDetails = tokenBreakdown.files.map(file =>
` ${file.path}: ${file.tokens.toLocaleString()} (${file.size})`
).join('\n');
sections.push(`Files (${tokenBreakdown.files.reduce((sum, f) => sum + f.tokens, 0).toLocaleString()}):\n${fileDetails}`);
}
// Add prompts breakdown
sections.push(`Prompts: system ${systemTokens.toLocaleString()}, user ${userTokens.toLocaleString()}`);
// Display in clean box
const content = sections.join('\n\n');
console.log(boxen(content, {
title: chalk.cyan('Token Usage'),
padding: { top: 1, bottom: 1, left: 2, right: 2 },
borderStyle: 'round',
borderColor: 'cyan'
}));
}
```
### **3. Enhanced Result Display Pattern**
```javascript
function displayResults(result, query, detailLevel, tokenBreakdown) {
// Header with query info
const header = boxen(
chalk.green.bold('Research Results') + '\n\n' +
chalk.gray('Query: ') + chalk.white(query) + '\n' +
chalk.gray('Detail Level: ') + chalk.cyan(detailLevel),
{
padding: { top: 1, bottom: 1, left: 2, right: 2 },
margin: { top: 1, bottom: 0 },
borderStyle: 'round',
borderColor: 'green'
}
);
console.log(header);
// Process and highlight code blocks
const processedResult = processCodeBlocks(result);
// Main content in clean box
const contentBox = boxen(processedResult, {
padding: { top: 1, bottom: 1, left: 2, right: 2 },
margin: { top: 0, bottom: 1 },
borderStyle: 'single',
borderColor: 'gray'
});
console.log(contentBox);
console.log(chalk.green('✓ Research complete'));
}
```
## Code Block Enhancement
### **Syntax Highlighting Pattern**
```javascript
import { highlight } from 'cli-highlight';
function processCodeBlocks(text) {
return text.replace(/```(\w+)?\n([\s\S]*?)```/g, (match, language, code) => {
try {
const highlighted = highlight(code.trim(), {
language: language || 'javascript',
theme: 'default'
});
return `\n${highlighted}\n`;
} catch (error) {
return `\n${code.trim()}\n`;
}
});
}
```
## Integration Guidelines
### **When to Use Context Gathering**
- ✅ **DO**: Use for AI-powered commands that benefit from project context
- ✅ **DO**: Use when users might want to reference specific tasks or files
- ✅ **DO**: Use for research, analysis, or generation commands
- ❌ **DON'T**: Use for simple CRUD operations that don't need AI context
### **Performance Considerations**
- ✅ **DO**: Set reasonable file size limits (50KB default)
- ✅ **DO**: Limit project tree depth (3-5 levels)
- ✅ **DO**: Provide token counts to help users understand context size
- ✅ **DO**: Allow users to control what context is included
### **Error Handling**
- ✅ **DO**: Gracefully handle missing files with warnings
- ✅ **DO**: Validate task IDs and provide helpful error messages
- ✅ **DO**: Continue processing even if some context sources fail
- ✅ **DO**: Provide fallback behavior when context gathering fails
### **Future Command Integration**
Commands that should consider adopting this pattern:
- `analyze-complexity` - Could benefit from file context
- `expand-task` - Could use related task context
- `update-task` - Could reference similar tasks for consistency
- `add-task` - Could use project context for better task generation
## Export Patterns
### **Context Gatherer Module**
```javascript
export {
ContextGatherer,
createContextGatherer // Factory function
};
```
### **Fuzzy Search Module**
```javascript
export {
FuzzyTaskSearch,
PURPOSE_CATEGORIES,
RELEVANCE_THRESHOLDS
};
```
This context gathering system provides a foundation for building more intelligent, context-aware commands that can leverage project knowledge to provide better AI-powered assistance.

245
.cursor/rules/dev_workflow.mdc
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@@ -1,205 +1,23 @@
---
description: Guide for using Taskmaster to manage task-driven development workflows
description: Guide for using Task Master to manage task-driven development workflows
globs: **/*
alwaysApply: true
---
# Task Master Development Workflow
# Taskmaster Development Workflow
This guide outlines the standard process for using Taskmaster to manage software development projects. It is written as a set of instructions for you, the AI agent.
- **Your Default Stance**: For most projects, the user can work directly within the `master` task context. Your initial actions should operate on this default context unless a clear pattern for multi-context work emerges.
- **Your Goal**: Your role is to elevate the user's workflow by intelligently introducing advanced features like **Tagged Task Lists** when you detect the appropriate context. Do not force tags on the user; suggest them as a helpful solution to a specific need.
## The Basic Loop
The fundamental development cycle you will facilitate is:
1. **`list`**: Show the user what needs to be done.
2. **`next`**: Help the user decide what to work on.
3. **`show <id>`**: Provide details for a specific task.
4. **`expand <id>`**: Break down a complex task into smaller, manageable subtasks.
5. **Implement**: The user writes the code and tests.
6. **`update-subtask`**: Log progress and findings on behalf of the user.
7. **`set-status`**: Mark tasks and subtasks as `done` as work is completed.
8. **Repeat**.
All your standard command executions should operate on the user's current task context, which defaults to `master`.
---
## Standard Development Workflow Process
### Simple Workflow (Default Starting Point)
For new projects or when users are getting started, operate within the `master` tag context:
- Start new projects by running `initialize_project` tool / `task-master init` or `parse_prd` / `task-master parse-prd --input='<prd-file.txt>'` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) to generate initial tasks.json with tagged structure
- Configure rule sets during initialization with `--rules` flag (e.g., `task-master init --rules cursor,windsurf`) or manage them later with `task-master rules add/remove` commands
- Begin coding sessions with `get_tasks` / `task-master list` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) to see current tasks, status, and IDs
- Determine the next task to work on using `next_task` / `task-master next` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc))
- Analyze task complexity with `analyze_project_complexity` / `task-master analyze-complexity --research` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) before breaking down tasks
- Review complexity report using `complexity_report` / `task-master complexity-report` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc))
- Select tasks based on dependencies (all marked 'done'), priority level, and ID order
- View specific task details using `get_task` / `task-master show <id>` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) to understand implementation requirements
- Break down complex tasks using `expand_task` / `task-master expand --id=<id> --force --research` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) with appropriate flags like `--force` (to replace existing subtasks) and `--research`
- Implement code following task details, dependencies, and project standards
- Mark completed tasks with `set_task_status` / `task-master set-status --id=<id> --status=done` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc))
- Update dependent tasks when implementation differs from original plan using `update` / `task-master update --from=<id> --prompt="..."` or `update_task` / `task-master update-task --id=<id> --prompt="..."` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc))
---
## Leveling Up: Agent-Led Multi-Context Workflows
While the basic workflow is powerful, your primary opportunity to add value is by identifying when to introduce **Tagged Task Lists**. These patterns are your tools for creating a more organized and efficient development environment for the user, especially if you detect agentic or parallel development happening across the same session.
**Critical Principle**: Most users should never see a difference in their experience. Only introduce advanced workflows when you detect clear indicators that the project has evolved beyond simple task management.
### When to Introduce Tags: Your Decision Patterns
Here are the patterns to look for. When you detect one, you should propose the corresponding workflow to the user.
#### Pattern 1: Simple Git Feature Branching
This is the most common and direct use case for tags.
- **Trigger**: The user creates a new git branch (e.g., `git checkout -b feature/user-auth`).
- **Your Action**: Propose creating a new tag that mirrors the branch name to isolate the feature's tasks from `master`.
- **Your Suggested Prompt**: *"I see you've created a new branch named 'feature/user-auth'. To keep all related tasks neatly organized and separate from your main list, I can create a corresponding task tag for you. This helps prevent merge conflicts in your `tasks.json` file later. Shall I create the 'feature-user-auth' tag?"*
- **Tool to Use**: `task-master add-tag --from-branch`
#### Pattern 2: Team Collaboration
- **Trigger**: The user mentions working with teammates (e.g., "My teammate Alice is handling the database schema," or "I need to review Bob's work on the API.").
- **Your Action**: Suggest creating a separate tag for the user's work to prevent conflicts with shared master context.
- **Your Suggested Prompt**: *"Since you're working with Alice, I can create a separate task context for your work to avoid conflicts. This way, Alice can continue working with the master list while you have your own isolated context. When you're ready to merge your work, we can coordinate the tasks back to master. Shall I create a tag for your current work?"*
- **Tool to Use**: `task-master add-tag my-work --copy-from-current --description="My tasks while collaborating with Alice"`
#### Pattern 3: Experiments or Risky Refactors
- **Trigger**: The user wants to try something that might not be kept (e.g., "I want to experiment with switching our state management library," or "Let's refactor the old API module, but I want to keep the current tasks as a reference.").
- **Your Action**: Propose creating a sandboxed tag for the experimental work.
- **Your Suggested Prompt**: *"This sounds like a great experiment. To keep these new tasks separate from our main plan, I can create a temporary 'experiment-zustand' tag for this work. If we decide not to proceed, we can simply delete the tag without affecting the main task list. Sound good?"*
- **Tool to Use**: `task-master add-tag experiment-zustand --description="Exploring Zustand migration"`
#### Pattern 4: Large Feature Initiatives (PRD-Driven)
This is a more structured approach for significant new features or epics.
- **Trigger**: The user describes a large, multi-step feature that would benefit from a formal plan.
- **Your Action**: Propose a comprehensive, PRD-driven workflow.
- **Your Suggested Prompt**: *"This sounds like a significant new feature. To manage this effectively, I suggest we create a dedicated task context for it. Here's the plan: I'll create a new tag called 'feature-xyz', then we can draft a Product Requirements Document (PRD) together to scope the work. Once the PRD is ready, I'll automatically generate all the necessary tasks within that new tag. How does that sound?"*
- **Your Implementation Flow**:
1. **Create an empty tag**: `task-master add-tag feature-xyz --description "Tasks for the new XYZ feature"`. You can also start by creating a git branch if applicable, and then create the tag from that branch.
2. **Collaborate & Create PRD**: Work with the user to create a detailed PRD file (e.g., `.taskmaster/docs/feature-xyz-prd.txt`).
3. **Parse PRD into the new tag**: `task-master parse-prd .taskmaster/docs/feature-xyz-prd.txt --tag feature-xyz`
4. **Prepare the new task list**: Follow up by suggesting `analyze-complexity` and `expand-all` for the newly created tasks within the `feature-xyz` tag.
#### Pattern 5: Version-Based Development
Tailor your approach based on the project maturity indicated by tag names.
- **Prototype/MVP Tags** (`prototype`, `mvp`, `poc`, `v0.x`):
- **Your Approach**: Focus on speed and functionality over perfection
- **Task Generation**: Create tasks that emphasize "get it working" over "get it perfect"
- **Complexity Level**: Lower complexity, fewer subtasks, more direct implementation paths
- **Research Prompts**: Include context like "This is a prototype - prioritize speed and basic functionality over optimization"
- **Example Prompt Addition**: *"Since this is for the MVP, I'll focus on tasks that get core functionality working quickly rather than over-engineering."*
- **Production/Mature Tags** (`v1.0+`, `production`, `stable`):
- **Your Approach**: Emphasize robustness, testing, and maintainability
- **Task Generation**: Include comprehensive error handling, testing, documentation, and optimization
- **Complexity Level**: Higher complexity, more detailed subtasks, thorough implementation paths
- **Research Prompts**: Include context like "This is for production - prioritize reliability, performance, and maintainability"
- **Example Prompt Addition**: *"Since this is for production, I'll ensure tasks include proper error handling, testing, and documentation."*
### Advanced Workflow (Tag-Based & PRD-Driven)
**When to Transition**: Recognize when the project has evolved (or has initiated a project which existing code) beyond simple task management. Look for these indicators:
- User mentions teammates or collaboration needs
- Project has grown to 15+ tasks with mixed priorities
- User creates feature branches or mentions major initiatives
- User initializes Taskmaster on an existing, complex codebase
- User describes large features that would benefit from dedicated planning
**Your Role in Transition**: Guide the user to a more sophisticated workflow that leverages tags for organization and PRDs for comprehensive planning.
#### Master List Strategy (High-Value Focus)
Once you transition to tag-based workflows, the `master` tag should ideally contain only:
- **High-level deliverables** that provide significant business value
- **Major milestones** and epic-level features
- **Critical infrastructure** work that affects the entire project
- **Release-blocking** items
**What NOT to put in master**:
- Detailed implementation subtasks (these go in feature-specific tags' parent tasks)
- Refactoring work (create dedicated tags like `refactor-auth`)
- Experimental features (use `experiment-*` tags)
- Team member-specific tasks (use person-specific tags)
#### PRD-Driven Feature Development
**For New Major Features**:
1. **Identify the Initiative**: When user describes a significant feature
2. **Create Dedicated Tag**: `add_tag feature-[name] --description="[Feature description]"`
3. **Collaborative PRD Creation**: Work with user to create comprehensive PRD in `.taskmaster/docs/feature-[name]-prd.txt`
4. **Parse & Prepare**:
- `parse_prd .taskmaster/docs/feature-[name]-prd.txt --tag=feature-[name]`
- `analyze_project_complexity --tag=feature-[name] --research`
- `expand_all --tag=feature-[name] --research`
5. **Add Master Reference**: Create a high-level task in `master` that references the feature tag
**For Existing Codebase Analysis**:
When users initialize Taskmaster on existing projects:
1. **Codebase Discovery**: Use your native tools for producing deep context about the code base. You may use `research` tool with `--tree` and `--files` to collect up to date information using the existing architecture as context.
2. **Collaborative Assessment**: Work with user to identify improvement areas, technical debt, or new features
3. **Strategic PRD Creation**: Co-author PRDs that include:
- Current state analysis (based on your codebase research)
- Proposed improvements or new features
- Implementation strategy considering existing code
4. **Tag-Based Organization**: Parse PRDs into appropriate tags (`refactor-api`, `feature-dashboard`, `tech-debt`, etc.)
5. **Master List Curation**: Keep only the most valuable initiatives in master
The parse-prd's `--append` flag enables the user to parse multiple PRDs within tags or across tags. PRDs should be focused and the number of tasks they are parsed into should be strategically chosen relative to the PRD's complexity and level of detail.
### Workflow Transition Examples
**Example 1: Simple → Team-Based**
```
User: "Alice is going to help with the API work"
Your Response: "Great! To avoid conflicts, I'll create a separate task context for your work. Alice can continue with the master list while you work in your own context. When you're ready to merge, we can coordinate the tasks back together."
Action: add_tag my-api-work --copy-from-current --description="My API tasks while collaborating with Alice"
```
**Example 2: Simple → PRD-Driven**
```
User: "I want to add a complete user dashboard with analytics, user management, and reporting"
Your Response: "This sounds like a major feature that would benefit from detailed planning. Let me create a dedicated context for this work and we can draft a PRD together to ensure we capture all requirements."
Actions:
1. add_tag feature-dashboard --description="User dashboard with analytics and management"
2. Collaborate on PRD creation
3. parse_prd dashboard-prd.txt --tag=feature-dashboard
4. Add high-level "User Dashboard" task to master
```
**Example 3: Existing Project → Strategic Planning**
```
User: "I just initialized Taskmaster on my existing React app. It's getting messy and I want to improve it."
Your Response: "Let me research your codebase to understand the current architecture, then we can create a strategic plan for improvements."
Actions:
1. research "Current React app architecture and improvement opportunities" --tree --files=src/
2. Collaborate on improvement PRD based on findings
3. Create tags for different improvement areas (refactor-components, improve-state-management, etc.)
4. Keep only major improvement initiatives in master
```
---
This guide outlines the typical process for using Task Master to manage software development projects.
## Primary Interaction: MCP Server vs. CLI
Taskmaster offers two primary ways to interact:
Task Master offers two primary ways to interact:
1. **MCP Server (Recommended for Integrated Tools)**:
- For AI agents and integrated development environments (like Cursor), interacting via the **MCP server is the preferred method**.
- The MCP server exposes Taskmaster functionality through a set of tools (e.g., `get_tasks`, `add_subtask`).
- The MCP server exposes Task Master functionality through a set of tools (e.g., `get_tasks`, `add_subtask`).
- This method offers better performance, structured data exchange, and richer error handling compared to CLI parsing.
- Refer to [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc) for details on the MCP architecture and available tools.
- A comprehensive list and description of MCP tools and their corresponding CLI commands can be found in [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc).
- **Restart the MCP server** if core logic in `scripts/modules` or MCP tool/direct function definitions change.
- **Note**: MCP tools fully support tagged task lists with complete tag management capabilities.
2. **`task-master` CLI (For Users & Fallback)**:
- The global `task-master` command provides a user-friendly interface for direct terminal interaction.
@@ -207,17 +25,31 @@ Taskmaster offers two primary ways to interact:
- Install globally with `npm install -g task-master-ai` or use locally via `npx task-master-ai ...`.
- The CLI commands often mirror the MCP tools (e.g., `task-master list` corresponds to `get_tasks`).
- Refer to [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc) for a detailed command reference.
- **Tagged Task Lists**: CLI fully supports the new tagged system with seamless migration.
## How the Tag System Works (For Your Reference)
## Standard Development Workflow Process
- **Data Structure**: Tasks are organized into separate contexts (tags) like "master", "feature-branch", or "v2.0".
- **Silent Migration**: Existing projects automatically migrate to use a "master" tag with zero disruption.
- **Context Isolation**: Tasks in different tags are completely separate. Changes in one tag do not affect any other tag.
- **Manual Control**: The user is always in control. There is no automatic switching. You facilitate switching by using `use-tag <name>`.
- **Full CLI & MCP Support**: All tag management commands are available through both the CLI and MCP tools for you to use. Refer to [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc) for a full command list.
---
- Start new projects by running `initialize_project` tool / `task-master init` or `parse_prd` / `task-master parse-prd --input='<prd-file.txt>'` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) to generate initial tasks.json
- Begin coding sessions with `get_tasks` / `task-master list` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) to see current tasks, status, and IDs
- Determine the next task to work on using `next_task` / `task-master next` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)).
- Analyze task complexity with `analyze_project_complexity` / `task-master analyze-complexity --research` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) before breaking down tasks
- Review complexity report using `complexity_report` / `task-master complexity-report` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)).
- Select tasks based on dependencies (all marked 'done'), priority level, and ID order
- Clarify tasks by checking task files in tasks/ directory or asking for user input
- View specific task details using `get_task` / `task-master show <id>` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) to understand implementation requirements
- Break down complex tasks using `expand_task` / `task-master expand --id=<id> --force --research` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) with appropriate flags like `--force` (to replace existing subtasks) and `--research`.
- Clear existing subtasks if needed using `clear_subtasks` / `task-master clear-subtasks --id=<id>` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) before regenerating
- Implement code following task details, dependencies, and project standards
- Verify tasks according to test strategies before marking as complete (See [`tests.mdc`](mdc:.cursor/rules/tests.mdc))
- Mark completed tasks with `set_task_status` / `task-master set-status --id=<id> --status=done` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc))
- Update dependent tasks when implementation differs from original plan using `update` / `task-master update --from=<id> --prompt="..."` or `update_task` / `task-master update-task --id=<id> --prompt="..."` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc))
- Add new tasks discovered during implementation using `add_task` / `task-master add-task --prompt="..." --research` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)).
- Add new subtasks as needed using `add_subtask` / `task-master add-subtask --parent=<id> --title="..."` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)).
- Append notes or details to subtasks using `update_subtask` / `task-master update-subtask --id=<subtaskId> --prompt='Add implementation notes here...\nMore details...'` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)).
- Generate task files with `generate` / `task-master generate` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) after updating tasks.json
- Maintain valid dependency structure with `add_dependency`/`remove_dependency` tools or `task-master add-dependency`/`remove-dependency` commands, `validate_dependencies` / `task-master validate-dependencies`, and `fix_dependencies` / `task-master fix-dependencies` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) when needed
- Respect dependency chains and task priorities when selecting work
- Report progress regularly using `get_tasks` / `task-master list`
- Reorganize tasks as needed using `move_task` / `task-master move --from=<id> --to=<id>` (see [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)) to change task hierarchy or ordering
## Task Complexity Analysis
@@ -272,13 +104,12 @@ Taskmaster offers two primary ways to interact:
Taskmaster configuration is managed through two main mechanisms:
1. **`.taskmaster/config.json` File (Primary):**
1. **`.taskmasterconfig` File (Primary):**
* Located in the project root directory.
* Stores most configuration settings: AI model selections (main, research, fallback), parameters (max tokens, temperature), logging level, default subtasks/priority, project name, etc.
* **Tagged System Settings**: Includes `global.defaultTag` (defaults to "master") and `tags` section for tag management configuration.
* **Managed via `task-master models --setup` command.** Do not edit manually unless you know what you are doing.
* **View/Set specific models via `task-master models` command or `models` MCP tool.**
* Created automatically when you run `task-master models --setup` for the first time or during tagged system migration.
* Created automatically when you run `task-master models --setup` for the first time.
2. **Environment Variables (`.env` / `mcp.json`):**
* Used **only** for sensitive API keys and specific endpoint URLs.
@@ -286,26 +117,10 @@ Taskmaster configuration is managed through two main mechanisms:
* For MCP/Cursor integration, configure these keys in the `env` section of `.cursor/mcp.json`.
* Available keys/variables: See `assets/env.example` or the Configuration section in the command reference (previously linked to `taskmaster.mdc`).
3. **`.taskmaster/state.json` File (Tagged System State):**
* Tracks current tag context and migration status.
* Automatically created during tagged system migration.
* Contains: `currentTag`, `lastSwitched`, `migrationNoticeShown`.
**Important:** Non-API key settings (like model selections, `MAX_TOKENS`, `TASKMASTER_LOG_LEVEL`) are **no longer configured via environment variables**. Use the `task-master models` command (or `--setup` for interactive configuration) or the `models` MCP tool.
**If AI commands FAIL in MCP** verify that the API key for the selected provider is present in the `env` section of `.cursor/mcp.json`.
**If AI commands FAIL in CLI** verify that the API key for the selected provider is present in the `.env` file in the root of the project.
## Rules Management
Taskmaster supports multiple AI coding assistant rule sets that can be configured during project initialization or managed afterward:
- **Available Profiles**: Claude Code, Cline, Codex, Cursor, Roo Code, Trae, Windsurf (claude, cline, codex, cursor, roo, trae, windsurf)
- **During Initialization**: Use `task-master init --rules cursor,windsurf` to specify which rule sets to include
- **After Initialization**: Use `task-master rules add <profiles>` or `task-master rules remove <profiles>` to manage rule sets
- **Interactive Setup**: Use `task-master rules setup` to launch an interactive prompt for selecting rule profiles
- **Default Behavior**: If no `--rules` flag is specified during initialization, all available rule profiles are included
- **Rule Structure**: Each profile creates its own directory (e.g., `.cursor/rules`, `.roo/rules`) with appropriate configuration files
## Determining the Next Task
- Run `next_task` / `task-master next` to show the next task to work on.

404
.cursor/rules/git_workflow.mdc
View File

@@ -1,404 +0,0 @@
---
description: Git workflow integrated with Task Master for feature development and collaboration
globs: "**/*"
alwaysApply: true
---
# Git Workflow with Task Master Integration
## **Branch Strategy**
### **Main Branch Protection**
- **main** branch contains production-ready code
- All feature development happens on task-specific branches
- Direct commits to main are prohibited
- All changes merge via Pull Requests
### **Task Branch Naming**
```bash
# ✅ DO: Use consistent task branch naming
task-001 # For Task 1
task-004 # For Task 4
task-015 # For Task 15
# ❌ DON'T: Use inconsistent naming
feature/user-auth
fix-database-issue
random-branch-name
```
## **Tagged Task Lists Integration**
Task Master's **tagged task lists system** provides significant benefits for Git workflows:
### **Multi-Context Development**
- **Branch-Specific Tasks**: Each branch can have its own task context using tags
- **Merge Conflict Prevention**: Tasks in different tags are completely isolated
- **Context Switching**: Seamlessly switch between different development contexts
- **Parallel Development**: Multiple team members can work on separate task contexts
### **Migration and Compatibility**
- **Seamless Migration**: Existing projects automatically migrate to use a "master" tag
- **Zero Disruption**: All existing Git workflows continue unchanged
- **Backward Compatibility**: Legacy projects work exactly as before
### **Manual Git Integration**
- **Manual Tag Creation**: Use `--from-branch` option to create tags from current git branch
- **Manual Context Switching**: Explicitly switch tag contexts as needed for different branches
- **Simplified Integration**: Focused on manual control rather than automatic workflows
## **Workflow Overview**
```mermaid
flowchart TD
A[Start: On main branch] --> B[Pull latest changes]
B --> C[Create task branch<br/>git checkout -b task-XXX]
C --> D[Set task status: in-progress]
D --> E[Get task context & expand if needed<br/>Tasks automatically use current tag]
E --> F[Identify next subtask]
F --> G[Set subtask: in-progress]
G --> H[Research & collect context<br/>update_subtask with findings]
H --> I[Implement subtask]
I --> J[Update subtask with completion]
J --> K[Set subtask: done]
K --> L[Git commit subtask]
L --> M{More subtasks?}
M -->|Yes| F
M -->|No| N[Run final tests]
N --> O[Commit tests if added]
O --> P[Push task branch]
P --> Q[Create Pull Request]
Q --> R[Human review & merge]
R --> S[Switch to main & pull]
S --> T[Delete task branch]
T --> U[Ready for next task]
style A fill:#e1f5fe
style C fill:#f3e5f5
style G fill:#fff3e0
style L fill:#e8f5e8
style Q fill:#fce4ec
style R fill:#f1f8e9
style U fill:#e1f5fe
```
## **Complete Task Development Workflow**
### **Phase 1: Task Preparation**
```bash
# 1. Ensure you're on main branch and pull latest
git checkout main
git pull origin main
# 2. Check current branch status
git branch # Verify you're on main
# 3. Create task-specific branch
git checkout -b task-004 # For Task 4
# 4. Set task status in Task Master (tasks automatically use current tag context)
# Use: set_task_status tool or `task-master set-status --id=4 --status=in-progress`
```
### **Phase 2: Task Analysis & Planning**
```bash
# 5. Get task context and expand if needed (uses current tag automatically)
# Use: get_task tool or `task-master show 4`
# Use: expand_task tool or `task-master expand --id=4 --research --force` (if complex)
# 6. Identify next subtask to work on
# Use: next_task tool or `task-master next`
```
### **Phase 3: Subtask Implementation Loop**
For each subtask, follow this pattern:
```bash
# 7. Mark subtask as in-progress
# Use: set_task_status tool or `task-master set-status --id=4.1 --status=in-progress`
# 8. Gather context and research (if needed)
# Use: update_subtask tool with research flag or:
# `task-master update-subtask --id=4.1 --prompt="Research findings..." --research`
# 9. Collect code context through AI exploration
# Document findings in subtask using update_subtask
# 10. Implement the subtask
# Write code, tests, documentation
# 11. Update subtask with completion details
# Use: update_subtask tool or:
# `task-master update-subtask --id=4.1 --prompt="Implementation complete..."`
# 12. Mark subtask as done
# Use: set_task_status tool or `task-master set-status --id=4.1 --status=done`
# 13. Commit the subtask implementation
git add .
git commit -m "feat(task-4): Complete subtask 4.1 - [Subtask Title]
- Implementation details
- Key changes made
- Any important notes
Subtask 4.1: [Brief description of what was accomplished]
Relates to Task 4: [Main task title]"
```
### **Phase 4: Task Completion**
```bash
# 14. When all subtasks are complete, run final testing
# Create test file if needed, ensure all tests pass
npm test # or jest, or manual testing
# 15. If tests were added/modified, commit them
git add .
git commit -m "test(task-4): Add comprehensive tests for Task 4
- Unit tests for core functionality
- Integration tests for API endpoints
- All tests passing
Task 4: [Main task title] - Testing complete"
# 16. Push the task branch
git push origin task-004
# 17. Create Pull Request
# Title: "Task 4: [Task Title]"
# Description should include:
# - Task overview
# - Subtasks completed
# - Testing approach
# - Any breaking changes or considerations
```
### **Phase 5: PR Merge & Cleanup**
```bash
# 18. Human reviews and merges PR into main
# 19. Switch back to main and pull merged changes
git checkout main
git pull origin main
# 20. Delete the feature branch (optional cleanup)
git branch -d task-004
git push origin --delete task-004
```
## **Commit Message Standards**
### **Subtask Commits**
```bash
# ✅ DO: Consistent subtask commit format
git commit -m "feat(task-4): Complete subtask 4.1 - Initialize Express server
- Set up Express.js with TypeScript configuration
- Added CORS and body parsing middleware
- Implemented health check endpoints
- Basic error handling middleware
Subtask 4.1: Initialize project with npm and install dependencies
Relates to Task 4: Setup Express.js Server Project"
# ❌ DON'T: Vague or inconsistent commits
git commit -m "fixed stuff"
git commit -m "working on task"
```
### **Test Commits**
```bash
# ✅ DO: Separate test commits when substantial
git commit -m "test(task-4): Add comprehensive tests for Express server setup
- Unit tests for middleware configuration
- Integration tests for health check endpoints
- Mock tests for database connection
- All tests passing with 95% coverage
Task 4: Setup Express.js Server Project - Testing complete"
```
### **Commit Type Prefixes**
- `feat(task-X):` - New feature implementation
- `fix(task-X):` - Bug fixes
- `test(task-X):` - Test additions/modifications
- `docs(task-X):` - Documentation updates
- `refactor(task-X):` - Code refactoring
- `chore(task-X):` - Build/tooling changes
## **Task Master Commands Integration**
### **Essential Commands for Git Workflow**
```bash
# Task management (uses current tag context automatically)
task-master show <id> # Get task/subtask details
task-master next # Find next task to work on
task-master set-status --id=<id> --status=<status>
task-master update-subtask --id=<id> --prompt="..." --research
# Task expansion (for complex tasks)
task-master expand --id=<id> --research --force
# Progress tracking
task-master list # View all tasks and status
task-master list --status=in-progress # View active tasks
```
### **MCP Tool Equivalents**
When using Cursor or other MCP-integrated tools:
- `get_task` instead of `task-master show`
- `next_task` instead of `task-master next`
- `set_task_status` instead of `task-master set-status`
- `update_subtask` instead of `task-master update-subtask`
## **Branch Management Rules**
### **Branch Protection**
```bash
# ✅ DO: Always work on task branches
git checkout -b task-005
# Make changes
git commit -m "..."
git push origin task-005
# ❌ DON'T: Commit directly to main
git checkout main
git commit -m "..." # NEVER do this
```
### **Keeping Branches Updated**
```bash
# ✅ DO: Regularly sync with main (for long-running tasks)
git checkout task-005
git fetch origin
git rebase origin/main # or merge if preferred
# Resolve any conflicts and continue
```
## **Pull Request Guidelines**
### **PR Title Format**
```
Task <ID>: <Task Title>
Examples:
Task 4: Setup Express.js Server Project
Task 7: Implement User Authentication
Task 12: Add Stripe Payment Integration
```
### **PR Description Template**
```markdown
## Task Overview
Brief description of the main task objective.
## Subtasks Completed
- [x] 4.1: Initialize project with npm and install dependencies
- [x] 4.2: Configure TypeScript, ESLint and Prettier
- [x] 4.3: Create basic Express app with middleware and health check route
## Implementation Details
- Key architectural decisions made
- Important code changes
- Any deviations from original plan
## Testing
- [ ] Unit tests added/updated
- [ ] Integration tests passing
- [ ] Manual testing completed
## Breaking Changes
List any breaking changes or migration requirements.
## Related Tasks
Mention any dependent tasks or follow-up work needed.
```
## **Conflict Resolution**
### **Task Conflicts with Tagged System**
```bash
# With tagged task lists, merge conflicts are significantly reduced:
# 1. Different branches can use different tag contexts
# 2. Tasks in separate tags are completely isolated
# 3. Use Task Master's move functionality to reorganize if needed
# Manual git integration available:
# - Use `task-master add-tag --from-branch` to create tags from current branch
# - Manually switch contexts with `task-master use-tag <name>`
# - Simple, predictable workflow without automatic behavior
```
### **Code Conflicts**
```bash
# Standard Git conflict resolution
git fetch origin
git rebase origin/main
# Resolve conflicts in files
git add .
git rebase --continue
```
## **Emergency Procedures**
### **Hotfixes**
```bash
# For urgent production fixes:
git checkout main
git pull origin main
git checkout -b hotfix-urgent-issue
# Make minimal fix
git commit -m "hotfix: Fix critical production issue
- Specific fix description
- Minimal impact change
- Requires immediate deployment"
git push origin hotfix-urgent-issue
# Create emergency PR for immediate review
```
### **Task Abandonment**
```bash
# If task needs to be abandoned or significantly changed:
# 1. Update task status
task-master set-status --id=<id> --status=cancelled
# 2. Clean up branch
git checkout main
git branch -D task-<id>
git push origin --delete task-<id>
# 3. Document reasoning in task
task-master update-task --id=<id> --prompt="Task cancelled due to..."
```
## **Tagged System Benefits for Git Workflows**
### **Multi-Team Development**
- **Isolated Contexts**: Different teams can work on separate tag contexts without conflicts
- **Feature Branches**: Each feature branch can have its own task context
- **Release Management**: Separate tags for different release versions or environments
### **Merge Conflict Prevention**
- **Context Separation**: Tasks in different tags don't interfere with each other
- **Clean Merges**: Reduced likelihood of task-related merge conflicts
- **Parallel Development**: Multiple developers can work simultaneously without task conflicts
### **Manual Git Integration**
- **Branch-Based Tag Creation**: Use `--from-branch` option to create tags from current git branch
- **Manual Context Management**: Explicitly switch tag contexts as needed
- **Predictable Workflow**: Simple, manual control without automatic behavior
---
**References:**
- [Task Master Workflow](mdc:.cursor/rules/dev_workflow.mdc)
- [Architecture Guidelines](mdc:.cursor/rules/architecture.mdc)
- [Task Master Commands](mdc:.cursor/rules/taskmaster.mdc)

14
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View File

@@ -7,20 +7,20 @@ alwaysApply: true
This file provides a quick reference to the purpose of each rule file located in the `.cursor/rules` directory.
- **[`architecture.mdc`](mdc:.cursor/rules/architecture.mdc)**: Describes the high-level architecture of the Task Master CLI application, including the new tagged task lists system.
- **[`architecture.mdc`](mdc:.cursor/rules/architecture.mdc)**: Describes the high-level architecture of the Task Master CLI application.
- **[`changeset.mdc`](mdc:.cursor/rules/changeset.mdc)**: Guidelines for using Changesets (npm run changeset) to manage versioning and changelogs.
- **[`commands.mdc`](mdc:.cursor/rules/commands.mdc)**: Guidelines for implementing CLI commands using Commander.js.
- **[`cursor_rules.mdc`](mdc:.cursor/rules/cursor_rules.mdc)**: Guidelines for creating and maintaining Cursor rules to ensure consistency and effectiveness.
- **[`dependencies.mdc`](mdc:.cursor/rules/dependencies.mdc)**: Guidelines for managing task dependencies and relationships across tagged task contexts.
- **[`dev_workflow.mdc`](mdc:.cursor/rules/dev_workflow.mdc)**: Guide for using Task Master to manage task-driven development workflows with tagged task lists support.
- **[`dependencies.mdc`](mdc:.cursor/rules/dependencies.mdc)**: Guidelines for managing task dependencies and relationships.
- **[`dev_workflow.mdc`](mdc:.cursor/rules/dev_workflow.mdc)**: Guide for using Task Master to manage task-driven development workflows.
- **[`glossary.mdc`](mdc:.cursor/rules/glossary.mdc)**: This file; provides a glossary of other Cursor rules.
- **[`mcp.mdc`](mdc:.cursor/rules/mcp.mdc)**: Guidelines for implementing and interacting with the Task Master MCP Server.
- **[`new_features.mdc`](mdc:.cursor/rules/new_features.mdc)**: Guidelines for integrating new features into the Task Master CLI with tagged system considerations.
- **[`new_features.mdc`](mdc:.cursor/rules/new_features.mdc)**: Guidelines for integrating new features into the Task Master CLI.
- **[`self_improve.mdc`](mdc:.cursor/rules/self_improve.mdc)**: Guidelines for continuously improving Cursor rules based on emerging code patterns and best practices.
- **[`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)**: Comprehensive reference for Taskmaster MCP tools and CLI commands with tagged task lists information.
- **[`tasks.mdc`](mdc:.cursor/rules/tasks.mdc)**: Guidelines for implementing task management operations with tagged task lists system support.
- **[`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc)**: Comprehensive reference for Taskmaster MCP tools and CLI commands.
- **[`tasks.mdc`](mdc:.cursor/rules/tasks.mdc)**: Guidelines for implementing task management operations.
- **[`tests.mdc`](mdc:.cursor/rules/tests.mdc)**: Guidelines for implementing and maintaining tests for Task Master CLI.
- **[`ui.mdc`](mdc:.cursor/rules/ui.mdc)**: Guidelines for implementing and maintaining user interface components.
- **[`utilities.mdc`](mdc:.cursor/rules/utilities.mdc)**: Guidelines for implementing utility functions including tagged task lists utilities.
- **[`utilities.mdc`](mdc:.cursor/rules/utilities.mdc)**: Guidelines for implementing utility functions.
- **[`telemetry.mdc`](mdc:.cursor/rules/telemetry.mdc)**: Guidelines for integrating AI usage telemetry across Task Master.

301
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@@ -24,22 +24,17 @@ alwaysApply: false
The standard pattern for adding a feature follows this workflow:
1. **Core Logic**: Implement the business logic in the appropriate module (e.g., [`task-manager.js`](mdc:scripts/modules/task-manager.js)).
2. **Context Gathering (If Applicable)**:
- For AI-powered commands that benefit from project context, use the standardized context gathering patterns from [`context_gathering.mdc`](mdc:.cursor/rules/context_gathering.mdc).
- Import `ContextGatherer` and `FuzzyTaskSearch` utilities for reusable context extraction.
- Support multiple context types: tasks, files, custom text, project tree.
- Implement detailed token breakdown display for transparency.
3. **AI Integration (If Applicable)**:
2. **AI Integration (If Applicable)**:
- Import necessary service functions (e.g., `generateTextService`, `streamTextService`) from [`ai-services-unified.js`](mdc:scripts/modules/ai-services-unified.js).
- Prepare parameters (`role`, `session`, `systemPrompt`, `prompt`).
- Call the service function.
- Handle the response (direct text or stream object).
- **Important**: Prefer `generateTextService` for calls sending large context (like stringified JSON) where incremental display is not needed. See [`ai_services.mdc`](mdc:.cursor/rules/ai_services.mdc) for detailed usage patterns and cautions.
4. **UI Components**: Add any display functions to [`ui.js`](mdc:scripts/modules/ui.js) following [`ui.mdc`](mdc:.cursor/rules/ui.mdc). Consider enhanced formatting with syntax highlighting for code blocks.
5. **Command Integration**: Add the CLI command to [`commands.js`](mdc:scripts/modules/commands.js) following [`commands.mdc`](mdc:.cursor/rules/commands.mdc).
6. **Testing**: Write tests for all components of the feature (following [`tests.mdc`](mdc:.cursor/rules/tests.mdc))
7. **Configuration**: Update configuration settings or add new ones in [`config-manager.js`](mdc:scripts/modules/config-manager.js) and ensure getters/setters are appropriate. Update documentation in [`utilities.mdc`](mdc:.cursor/rules/utilities.mdc) and [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc). Update the `.taskmasterconfig` structure if needed.
8. **Documentation**: Update help text and documentation in [`dev_workflow.mdc`](mdc:.cursor/rules/dev_workflow.mdc) and [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc).
3. **UI Components**: Add any display functions to [`ui.js`](mdc:scripts/modules/ui.js) following [`ui.mdc`](mdc:.cursor/rules/ui.mdc).
4. **Command Integration**: Add the CLI command to [`commands.js`](mdc:scripts/modules/commands.js) following [`commands.mdc`](mdc:.cursor/rules/commands.mdc).
5. **Testing**: Write tests for all components of the feature (following [`tests.mdc`](mdc:.cursor/rules/tests.mdc))
6. **Configuration**: Update configuration settings or add new ones in [`config-manager.js`](mdc:scripts/modules/config-manager.js) and ensure getters/setters are appropriate. Update documentation in [`utilities.mdc`](mdc:.cursor/rules/utilities.mdc) and [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc). Update the `.taskmasterconfig` structure if needed.
7. **Documentation**: Update help text and documentation in [`dev_workflow.mdc`](mdc:.cursor/rules/dev_workflow.mdc) and [`taskmaster.mdc`](mdc:.cursor/rules/taskmaster.mdc).
## Critical Checklist for New Features
@@ -634,287 +629,3 @@ When implementing project initialization commands:
});
}
```
## Feature Planning
- **Core Logic First**:
- ✅ DO: Implement core logic in `scripts/modules/` before CLI or MCP interfaces
- ✅ DO: Consider tagged task lists system compatibility from the start
- ✅ DO: Design functions to work with both legacy and tagged data formats
- ✅ DO: Use tag resolution functions (`getTasksForTag`, `setTasksForTag`) for task data access
- ❌ DON'T: Directly manipulate tagged data structure in new features
```javascript
// ✅ DO: Design tagged-aware core functions
async function newFeatureCore(tasksPath, featureParams, options = {}) {
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
// Perform feature logic on tasks array
const result = performFeatureLogic(tasks, featureParams);
// Save back using tag resolution
setTasksForTag(tasksData, currentTag, tasks);
writeJSON(tasksPath, tasksData);
return result;
}
```
- **Backward Compatibility**:
- ✅ DO: Ensure new features work with existing projects seamlessly
- ✅ DO: Test with both legacy and tagged task data formats
- ✅ DO: Support silent migration during feature usage
- ❌ DON'T: Break existing workflows when adding tagged system features
## CLI Command Implementation
- **Command Structure**:
- ✅ DO: Follow the established pattern in [`commands.js`](mdc:scripts/modules/commands.js)
- ✅ DO: Use Commander.js for argument parsing
- ✅ DO: Include comprehensive help text and examples
- ✅ DO: Support tagged task context awareness
```javascript
// ✅ DO: Implement CLI commands with tagged system awareness
program
.command('new-feature')
.description('Description of the new feature with tagged task lists support')
.option('-t, --tag <tag>', 'Specify tag context (defaults to current tag)')
.option('-p, --param <value>', 'Feature-specific parameter')
.option('--force', 'Force operation without confirmation')
.action(async (options) => {
try {
const projectRoot = findProjectRoot();
if (!projectRoot) {
console.error('Not in a Task Master project directory');
process.exit(1);
}
// Use specified tag or current tag
const targetTag = options.tag || getCurrentTag() || 'master';
const result = await newFeatureCore(
path.join(projectRoot, '.taskmaster', 'tasks', 'tasks.json'),
{ param: options.param },
{
force: options.force,
targetTag: targetTag,
outputFormat: 'text'
}
);
console.log('Feature executed successfully');
} catch (error) {
console.error(`Error: ${error.message}`);
process.exit(1);
}
});
```
- **Error Handling**:
- ✅ DO: Provide clear error messages for common failures
- ✅ DO: Handle tagged system migration errors gracefully
- ✅ DO: Include suggestion for resolution when possible
- ✅ DO: Exit with appropriate codes for scripting
## MCP Tool Implementation
- **Direct Function Pattern**:
- ✅ DO: Create direct function wrappers in `mcp-server/src/core/direct-functions/`
- ✅ DO: Follow silent mode patterns to prevent console output interference
- ✅ DO: Use `findTasksJsonPath` for consistent path resolution
- ✅ DO: Ensure tagged system compatibility
```javascript
// ✅ DO: Implement MCP direct functions with tagged awareness
export async function newFeatureDirect(args, log, context = {}) {
try {
const tasksPath = findTasksJsonPath(args, log);
// Enable silent mode for clean MCP responses
enableSilentMode();
try {
const result = await newFeatureCore(
tasksPath,
{ param: args.param },
{
force: args.force,
targetTag: args.tag || 'master', // Support tag specification
mcpLog: log,
session: context.session,
outputFormat: 'json'
}
);
return {
success: true,
data: result,
fromCache: false
};
} finally {
disableSilentMode();
}
} catch (error) {
log.error(`Error in newFeatureDirect: ${error.message}`);
return {
success: false,
error: { code: 'FEATURE_ERROR', message: error.message },
fromCache: false
};
}
}
```
- **Tool Registration**:
- ✅ DO: Create tool definitions in `mcp-server/src/tools/`
- ✅ DO: Use Zod for parameter validation
- ✅ DO: Include optional tag parameter for multi-context support
- ✅ DO: Follow established naming conventions
```javascript
// ✅ DO: Register MCP tools with tagged system support
export function registerNewFeatureTool(server) {
server.addTool({
name: "new_feature",
description: "Description of the new feature with tagged task lists support",
inputSchema: z.object({
param: z.string().describe("Feature-specific parameter"),
tag: z.string().optional().describe("Target tag context (defaults to current tag)"),
force: z.boolean().optional().describe("Force operation without confirmation"),
projectRoot: z.string().optional().describe("Project root directory")
}),
execute: withNormalizedProjectRoot(async (args, { log, session }) => {
try {
const result = await newFeatureDirect(
{ ...args, projectRoot: args.projectRoot },
log,
{ session }
);
return handleApiResult(result, log);
} catch (error) {
return handleApiResult({
success: false,
error: { code: 'EXECUTION_ERROR', message: error.message }
}, log);
}
})
});
}
```
## Testing Strategy
- **Unit Tests**:
- ✅ DO: Test core logic independently with both data formats
- ✅ DO: Mock file system operations appropriately
- ✅ DO: Test tag resolution behavior
- ✅ DO: Verify migration compatibility
```javascript
// ✅ DO: Test new features with tagged system awareness
describe('newFeature', () => {
beforeEach(() => {
jest.clearAllMocks();
});
it('should work with legacy task format', async () => {
const legacyData = { tasks: [/* test data */] };
fs.readFileSync.mockReturnValue(JSON.stringify(legacyData));
const result = await newFeatureCore('/test/tasks.json', { param: 'test' });
expect(result).toBeDefined();
// Test legacy format handling
});
it('should work with tagged task format', async () => {
const taggedData = {
master: { tasks: [/* test data */] },
feature: { tasks: [/* test data */] }
};
fs.readFileSync.mockReturnValue(JSON.stringify(taggedData));
const result = await newFeatureCore('/test/tasks.json', { param: 'test' });
expect(result).toBeDefined();
// Test tagged format handling
});
it('should handle tag migration during feature usage', async () => {
const legacyData = { tasks: [/* test data */] };
fs.readFileSync.mockReturnValue(JSON.stringify(legacyData));
await newFeatureCore('/test/tasks.json', { param: 'test' });
// Verify migration occurred
expect(fs.writeFileSync).toHaveBeenCalledWith(
'/test/tasks.json',
expect.stringContaining('"master"')
);
});
});
```
- **Integration Tests**:
- ✅ DO: Test CLI and MCP interfaces with real task data
- ✅ DO: Verify end-to-end workflows across tag contexts
- ✅ DO: Test error scenarios and recovery
## Documentation Updates
- **Rule Updates**:
- ✅ DO: Update relevant `.cursor/rules/*.mdc` files
- ✅ DO: Include tagged system considerations in architecture docs
- ✅ DO: Add examples showing multi-context usage
- ✅ DO: Update workflow documentation as needed
- **User Documentation**:
- ✅ DO: Add feature documentation to `/docs` folder
- ✅ DO: Include tagged system usage examples
- ✅ DO: Update command reference documentation
- ✅ DO: Provide migration notes if relevant
## Migration Considerations
- **Silent Migration Support**:
- ✅ DO: Ensure new features trigger migration when needed
- ✅ DO: Handle migration errors gracefully in feature code
- ✅ DO: Test feature behavior with pre-migration projects
- ❌ DON'T: Assume projects are already migrated
- **Tag Context Handling**:
- ✅ DO: Default to current tag when not specified
- ✅ DO: Support explicit tag selection in advanced features
- ✅ DO: Validate tag existence before operations
- ✅ DO: Provide clear messaging about tag context
## Performance Considerations
- **Efficient Tag Operations**:
- ✅ DO: Minimize file I/O operations per feature execution
- ✅ DO: Cache tag resolution results when appropriate
- ✅ DO: Use streaming for large task datasets
- ❌ DON'T: Load all tags when only one is needed
- **Memory Management**:
- ✅ DO: Process large task lists efficiently
- ✅ DO: Clean up temporary data structures
- ✅ DO: Avoid keeping all tag data in memory simultaneously
## Deployment and Versioning
- **Changesets**:
- ✅ DO: Create appropriate changesets for new features
- ✅ DO: Use semantic versioning (minor for new features)
- ✅ DO: Include tagged system information in release notes
- ✅ DO: Document breaking changes if any
- **Feature Flags**:
- ✅ DO: Consider feature flags for experimental functionality
- ✅ DO: Ensure tagged system features work with flags
- ✅ DO: Provide clear documentation about flag usage
By following these guidelines, new features will integrate smoothly with the Task Master ecosystem while supporting the enhanced tagged task lists system for multi-context development workflows.

229
.cursor/rules/tags.mdc
View File

@@ -1,229 +0,0 @@
---
description:
globs: scripts/modules/*
alwaysApply: false
---
# Tagged Task Lists Command Patterns
This document outlines the standardized patterns that **ALL** Task Master commands must follow to properly support the tagged task lists system.
## Core Principles
- **Every command** that reads or writes tasks.json must be tag-aware
- **Consistent tag resolution** across all commands using `getCurrentTag(projectRoot)`
- **Proper context passing** to core functions with `{ projectRoot, tag }`
- **Standardized CLI options** with `--tag <tag>` flag
## Required Imports
All command files must import `getCurrentTag`:
```javascript
// ✅ DO: Import getCurrentTag in commands.js
import {
log,
readJSON,
writeJSON,
findProjectRoot,
getCurrentTag
} from './utils.js';
// ✅ DO: Import getCurrentTag in task-manager files
import {
readJSON,
writeJSON,
getCurrentTag
} from '../utils.js';
```
## CLI Command Pattern
Every CLI command that operates on tasks must follow this exact pattern:
```javascript
// ✅ DO: Standard tag-aware CLI command pattern
programInstance
.command('command-name')
.description('Command description')
.option('-f, --file <file>', 'Path to the tasks file', TASKMASTER_TASKS_FILE)
.option('--tag <tag>', 'Specify tag context for task operations') // REQUIRED
.action(async (options) => {
// 1. Find project root
const projectRoot = findProjectRoot();
if (!projectRoot) {
console.error(chalk.red('Error: Could not find project root.'));
process.exit(1);
}
// 2. Resolve tag using standard pattern
const tag = options.tag || getCurrentTag(projectRoot) || 'master';
// 3. Call core function with proper context
await coreFunction(
tasksPath,
// ... other parameters ...
{ projectRoot, tag } // REQUIRED context object
);
});
```
## Core Function Pattern
All core functions in `scripts/modules/task-manager/` must follow this pattern:
```javascript
// ✅ DO: Standard tag-aware core function pattern
async function coreFunction(
tasksPath,
// ... other parameters ...
context = {} // REQUIRED context parameter
) {
const { projectRoot, tag } = context;
// Use tag-aware readJSON/writeJSON
const data = readJSON(tasksPath, projectRoot, tag);
// ... function logic ...
writeJSON(tasksPath, data, projectRoot, tag);
}
```
## Tag Resolution Priority
The tag resolution follows this exact priority order:
1. **Explicit `--tag` flag**: `options.tag`
2. **Current active tag**: `getCurrentTag(projectRoot)`
3. **Default fallback**: `'master'`
```javascript
// ✅ DO: Standard tag resolution pattern
const tag = options.tag || getCurrentTag(projectRoot) || 'master';
```
## Commands Requiring Updates
### High Priority (Core Task Operations)
- [x] `add-task` - ✅ Fixed
- [x] `list` - ✅ Fixed
- [x] `update-task` - ✅ Fixed
- [x] `update-subtask` - ✅ Fixed
- [x] `set-status` - ✅ Already correct
- [x] `remove-task` - ✅ Already correct
- [x] `remove-subtask` - ✅ Fixed
- [x] `add-subtask` - ✅ Already correct
- [x] `clear-subtasks` - ✅ Fixed
- [x] `move-task` - ✅ Already correct
### Medium Priority (Analysis & Expansion)
- [x] `expand` - ✅ Fixed
- [ ] `next` - ✅ Fixed
- [ ] `show` (get-task) - Needs checking
- [ ] `analyze-complexity` - Needs checking
- [ ] `generate` - ✅ Fixed
### Lower Priority (Utilities)
- [ ] `research` - Needs checking
- [ ] `complexity-report` - Needs checking
- [ ] `validate-dependencies` - ✅ Fixed
- [ ] `fix-dependencies` - ✅ Fixed
- [ ] `add-dependency` - ✅ Fixed
- [ ] `remove-dependency` - ✅ Fixed
## MCP Integration Pattern
MCP direct functions must also follow the tag-aware pattern:
```javascript
// ✅ DO: Tag-aware MCP direct function
export async function coreActionDirect(args, log, context = {}) {
const { session } = context;
const { projectRoot, tag } = args; // MCP passes these in args
try {
const result = await coreAction(
tasksPath,
// ... other parameters ...
{ projectRoot, tag, session, mcpLog: logWrapper }
);
return { success: true, data: result };
} catch (error) {
return { success: false, error: { code: 'ERROR_CODE', message: error.message } };
}
}
```
## File Generation Tag-Aware Naming
The `generate` command must use tag-aware file naming:
```javascript
// ✅ DO: Tag-aware file naming
const taskFileName = targetTag === 'master'
? `task_${task.id.toString().padStart(3, '0')}.txt`
: `task_${task.id.toString().padStart(3, '0')}_${targetTag}.txt`;
```
**Examples:**
- Master tag: `task_001.txt`, `task_002.txt`
- Other tags: `task_001_feature.txt`, `task_002_feature.txt`
## Common Anti-Patterns
```javascript
// ❌ DON'T: Missing getCurrentTag import
import { readJSON, writeJSON } from '../utils.js'; // Missing getCurrentTag
// ❌ DON'T: Hard-coded tag resolution
const tag = options.tag || 'master'; // Missing getCurrentTag
// ❌ DON'T: Missing --tag option
.option('-f, --file <file>', 'Path to tasks file') // Missing --tag option
// ❌ DON'T: Missing context parameter
await coreFunction(tasksPath, param1, param2); // Missing { projectRoot, tag }
// ❌ DON'T: Incorrect readJSON/writeJSON calls
const data = readJSON(tasksPath); // Missing projectRoot and tag
writeJSON(tasksPath, data); // Missing projectRoot and tag
```
## Validation Checklist
For each command, verify:
- [ ] Imports `getCurrentTag` from utils.js
- [ ] Has `--tag <tag>` CLI option
- [ ] Uses standard tag resolution: `options.tag || getCurrentTag(projectRoot) || 'master'`
- [ ] Finds `projectRoot` with error handling
- [ ] Passes `{ projectRoot, tag }` context to core functions
- [ ] Core functions accept and use context parameter
- [ ] Uses `readJSON(tasksPath, projectRoot, tag)` and `writeJSON(tasksPath, data, projectRoot, tag)`
## Testing Tag Resolution
Test each command with:
```bash
# Test with explicit tag
node bin/task-master command-name --tag test-tag
# Test with active tag (should use current active tag)
node bin/task-master use-tag test-tag
node bin/task-master command-name
# Test with master tag (default)
node bin/task-master use-tag master
node bin/task-master command-name
```
## Migration Strategy
1. **Audit Phase**: Systematically check each command against the checklist
2. **Fix Phase**: Apply the standard patterns to non-compliant commands
3. **Test Phase**: Verify tag resolution works correctly
4. **Document Phase**: Update command documentation with tag support
This ensures consistent, predictable behavior across all Task Master commands and prevents tag deletion bugs.

204
.cursor/rules/taskmaster.mdc
View File

@@ -11,8 +11,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
**Important:** Several MCP tools involve AI processing... The AI-powered tools include `parse_prd`, `analyze_project_complexity`, `update_subtask`, `update_task`, `update`, `expand_all`, `expand_task`, and `add_task`.
**🏷️ Tagged Task Lists System:** Task Master now supports **tagged task lists** for multi-context task management. This allows you to maintain separate, isolated lists of tasks for different features, branches, or experiments. Existing projects are seamlessly migrated to use a default "master" tag. Most commands now support a `--tag <name>` flag to specify which context to operate on. If omitted, commands use the currently active tag.
---
## Initialization & Setup
@@ -26,7 +24,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `--name <name>`: `Set the name for your project in Taskmaster's configuration.`
* `--description <text>`: `Provide a brief description for your project.`
* `--version <version>`: `Set the initial version for your project, e.g., '0.1.0'.`
* `--no-git`: `Skip initializing a Git repository entirely.`
* `-y, --yes`: `Initialize Taskmaster quickly using default settings without interactive prompts.`
* **Usage:** Run this once at the beginning of a new project.
* **MCP Variant Description:** `Set up the basic Taskmaster file structure and configuration in the current directory for a new project by running the 'task-master init' command.`
@@ -37,11 +34,9 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `authorName`: `Author name.` (CLI: `--author <author>`)
* `skipInstall`: `Skip installing dependencies. Default is false.` (CLI: `--skip-install`)
* `addAliases`: `Add shell aliases tm and taskmaster. Default is false.` (CLI: `--aliases`)
* `noGit`: `Skip initializing a Git repository entirely. Default is false.` (CLI: `--no-git`)
* `yes`: `Skip prompts and use defaults/provided arguments. Default is false.` (CLI: `-y, --yes`)
* **Usage:** Run this once at the beginning of a new project, typically via an integrated tool like Cursor. Operates on the current working directory of the MCP server.
* **Important:** Once complete, you *MUST* parse a prd in order to generate tasks. There will be no tasks files until then. The next step after initializing should be to create a PRD using the example PRD in .taskmaster/templates/example_prd.txt.
* **Tagging:** Use the `--tag` option to parse the PRD into a specific, non-default tag context. If the tag doesn't exist, it will be created automatically. Example: `task-master parse-prd spec.txt --tag=new-feature`.
* **Important:** Once complete, you *MUST* parse a prd in order to generate tasks. There will be no tasks files until then. The next step after initializing should be to create a PRD using the example PRD in scripts/example_prd.txt.
### 2. Parse PRD (`parse_prd`)
@@ -50,12 +45,12 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Description:** `Parse a Product Requirements Document, PRD, or text file with Taskmaster to automatically generate an initial set of tasks in tasks.json.`
* **Key Parameters/Options:**
* `input`: `Path to your PRD or requirements text file that Taskmaster should parse for tasks.` (CLI: `[file]` positional or `-i, --input <file>`)
* `output`: `Specify where Taskmaster should save the generated 'tasks.json' file. Defaults to '.taskmaster/tasks/tasks.json'.` (CLI: `-o, --output <file>`)
* `output`: `Specify where Taskmaster should save the generated 'tasks.json' file. Defaults to 'tasks/tasks.json'.` (CLI: `-o, --output <file>`)
* `numTasks`: `Approximate number of top-level tasks Taskmaster should aim to generate from the document.` (CLI: `-n, --num-tasks <number>`)
* `force`: `Use this to allow Taskmaster to overwrite an existing 'tasks.json' without asking for confirmation.` (CLI: `-f, --force`)
* **Usage:** Useful for bootstrapping a project from an existing requirements document.
* **Notes:** Task Master will strictly adhere to any specific requirements mentioned in the PRD, such as libraries, database schemas, frameworks, tech stacks, etc., while filling in any gaps where the PRD isn't fully specified. Tasks are designed to provide the most direct implementation path while avoiding over-engineering.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress. If the user does not have a PRD, suggest discussing their idea and then use the example PRD in `.taskmaster/templates/example_prd.txt` as a template for creating the PRD based on their idea, for use with `parse-prd`.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress. If the user does not have a PRD, suggest discussing their idea and then use the example PRD in `scripts/example_prd.txt` as a template for creating the PRD based on their idea, for use with `parse-prd`.
---
@@ -79,14 +74,13 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `--set-fallback <model_id>`: `Set the fallback model.`
* `--ollama`: `Specify that the provided model ID is for Ollama (use with --set-*).`
* `--openrouter`: `Specify that the provided model ID is for OpenRouter (use with --set-*). Validates against OpenRouter API.`
* `--bedrock`: `Specify that the provided model ID is for AWS Bedrock (use with --set-*).`
* `--setup`: `Run interactive setup to configure models, including custom Ollama/OpenRouter IDs.`
* **Usage (MCP):** Call without set flags to get current config. Use `setMain`, `setResearch`, or `setFallback` with a valid model ID to update the configuration. Use `listAvailableModels: true` to get a list of unassigned models. To set a custom model, provide the model ID and set `ollama: true` or `openrouter: true`.
* **Usage (CLI):** Run without flags to view current configuration and available models. Use set flags to update specific roles. Use `--setup` for guided configuration, including custom models. To set a custom model via flags, use `--set-<role>=<model_id>` along with either `--ollama` or `--openrouter`.
* **Notes:** Configuration is stored in `.taskmaster/config.json` in the project root. This command/tool modifies that file. Use `listAvailableModels` or `task-master models` to see internally supported models. OpenRouter custom models are validated against their live API. Ollama custom models are not validated live.
* **Notes:** Configuration is stored in `.taskmasterconfig` in the project root. This command/tool modifies that file. Use `listAvailableModels` or `task-master models` to see internally supported models. OpenRouter custom models are validated against their live API. Ollama custom models are not validated live.
* **API note:** API keys for selected AI providers (based on their model) need to exist in the mcp.json file to be accessible in MCP context. The API keys must be present in the local .env file for the CLI to be able to read them.
* **Model costs:** The costs in supported models are expressed in dollars. An input/output value of 3 is $3.00. A value of 0.8 is $0.80.
* **Warning:** DO NOT MANUALLY EDIT THE .taskmaster/config.json FILE. Use the included commands either in the MCP or CLI format as needed. Always prioritize MCP tools when available and use the CLI as a fallback.
* **Warning:** DO NOT MANUALLY EDIT THE .taskmasterconfig FILE. Use the included commands either in the MCP or CLI format as needed. Always prioritize MCP tools when available and use the CLI as a fallback.
---
@@ -98,9 +92,8 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **CLI Command:** `task-master list [options]`
* **Description:** `List your Taskmaster tasks, optionally filtering by status and showing subtasks.`
* **Key Parameters/Options:**
* `status`: `Show only Taskmaster tasks matching this status (or multiple statuses, comma-separated), e.g., 'pending' or 'done,in-progress'.` (CLI: `-s, --status <status>`)
* `status`: `Show only Taskmaster tasks matching this status, e.g., 'pending' or 'done'.` (CLI: `-s, --status <status>`)
* `withSubtasks`: `Include subtasks indented under their parent tasks in the list.` (CLI: `--with-subtasks`)
* `tag`: `Specify which tag context to list tasks from. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Get an overview of the project status, often used at the start of a work session.
@@ -111,20 +104,17 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Description:** `Ask Taskmaster to show the next available task you can work on, based on status and completed dependencies.`
* **Key Parameters/Options:**
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* `tag`: `Specify which tag context to use. Defaults to the current active tag.` (CLI: `--tag <name>`)
* **Usage:** Identify what to work on next according to the plan.
### 5. Get Task Details (`get_task`)
* **MCP Tool:** `get_task`
* **CLI Command:** `task-master show [id] [options]`
* **Description:** `Display detailed information for one or more specific Taskmaster tasks or subtasks by ID.`
* **Description:** `Display detailed information for a specific Taskmaster task or subtask by its ID.`
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task (e.g., '15'), subtask (e.g., '15.2'), or a comma-separated list of IDs ('1,5,10.2') you want to view.` (CLI: `[id]` positional or `-i, --id <id>`)
* `tag`: `Specify which tag context to get the task(s) from. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `id`: `Required. The ID of the Taskmaster task, e.g., '15', or subtask, e.g., '15.2', you want to view.` (CLI: `[id]` positional or `-i, --id <id>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Understand the full details for a specific task. When multiple IDs are provided, a summary table is shown.
* **CRITICAL INFORMATION** If you need to collect information from multiple tasks, use comma-separated IDs (i.e. 1,2,3) to receive an array of tasks. Do not needlessly get tasks one at a time if you need to get many as that is wasteful.
* **Usage:** Understand the full details, implementation notes, and test strategy for a specific task before starting work.
---
@@ -140,7 +130,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `dependencies`: `Specify the IDs of any Taskmaster tasks that must be completed before this new one can start, e.g., '12,14'.` (CLI: `-d, --dependencies <ids>`)
* `priority`: `Set the priority for the new task: 'high', 'medium', or 'low'. Default is 'medium'.` (CLI: `--priority <priority>`)
* `research`: `Enable Taskmaster to use the research role for potentially more informed task creation.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context to add the task to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Quickly add newly identified tasks during development.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
@@ -158,8 +147,7 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `details`: `Provide implementation notes or details for the new subtask.` (CLI: `--details <text>`)
* `dependencies`: `Specify IDs of other tasks or subtasks, e.g., '15' or '16.1', that must be done before this new subtask.` (CLI: `--dependencies <ids>`)
* `status`: `Set the initial status for the new subtask. Default is 'pending'.` (CLI: `-s, --status <status>`)
* `generate`: `Enable Taskmaster to regenerate markdown task files after adding the subtask.` (CLI: `--generate`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `skipGenerate`: `Prevent Taskmaster from automatically regenerating markdown task files after adding the subtask.` (CLI: `--skip-generate`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Break down tasks manually or reorganize existing tasks.
@@ -172,7 +160,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `from`: `Required. The ID of the first task Taskmaster should update. All tasks with this ID or higher that are not 'done' will be considered.` (CLI: `--from <id>`)
* `prompt`: `Required. Explain the change or new context for Taskmaster to apply to the tasks, e.g., "We are now using React Query instead of Redux Toolkit for data fetching".` (CLI: `-p, --prompt <text>`)
* `research`: `Enable Taskmaster to use the research role for more informed updates. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Handle significant implementation changes or pivots that affect multiple future tasks. Example CLI: `task-master update --from='18' --prompt='Switching to React Query.\nNeed to refactor data fetching...'`
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
@@ -181,15 +168,13 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **MCP Tool:** `update_task`
* **CLI Command:** `task-master update-task [options]`
* **Description:** `Modify a specific Taskmaster task by ID, incorporating new information or changes. By default, this replaces the existing task details.`
* **Description:** `Modify a specific Taskmaster task or subtask by its ID, incorporating new information or changes.`
* **Key Parameters/Options:**
* `id`: `Required. The specific ID of the Taskmaster task, e.g., '15', you want to update.` (CLI: `-i, --id <id>`)
* `id`: `Required. The specific ID of the Taskmaster task, e.g., '15', or subtask, e.g., '15.2', you want to update.` (CLI: `-i, --id <id>`)
* `prompt`: `Required. Explain the specific changes or provide the new information Taskmaster should incorporate into this task.` (CLI: `-p, --prompt <text>`)
* `append`: `If true, appends the prompt content to the task's details with a timestamp, rather than replacing them. Behaves like update-subtask.` (CLI: `--append`)
* `research`: `Enable Taskmaster to use the research role for more informed updates. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context the task belongs to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Refine a specific task based on new understanding. Use `--append` to log progress without creating subtasks.
* **Usage:** Refine a specific task based on new understanding or feedback. Example CLI: `task-master update-task --id='15' --prompt='Clarification: Use PostgreSQL instead of MySQL.\nUpdate schema details...'`
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 10. Update Subtask (`update_subtask`)
@@ -198,12 +183,11 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **CLI Command:** `task-master update-subtask [options]`
* **Description:** `Append timestamped notes or details to a specific Taskmaster subtask without overwriting existing content. Intended for iterative implementation logging.`
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster subtask, e.g., '5.2', to update with new information.` (CLI: `-i, --id <id>`)
* `prompt`: `Required. The information, findings, or progress notes to append to the subtask's details with a timestamp.` (CLI: `-p, --prompt <text>`)
* `id`: `Required. The specific ID of the Taskmaster subtask, e.g., '15.2', you want to add information to.` (CLI: `-i, --id <id>`)
* `prompt`: `Required. Provide the information or notes Taskmaster should append to the subtask's details. Ensure this adds *new* information not already present.` (CLI: `-p, --prompt <text>`)
* `research`: `Enable Taskmaster to use the research role for more informed updates. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context the subtask belongs to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Log implementation progress, findings, and discoveries during subtask development. Each update is timestamped and appended to preserve the implementation journey.
* **Usage:** Add implementation notes, code snippets, or clarifications to a subtask during development. Before calling, review the subtask's current details to append only fresh insights, helping to build a detailed log of the implementation journey and avoid redundancy. Example CLI: `task-master update-subtask --id='15.2' --prompt='Discovered that the API requires header X.\nImplementation needs adjustment...'`
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 11. Set Task Status (`set_task_status`)
@@ -214,7 +198,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Key Parameters/Options:**
* `id`: `Required. The ID(s) of the Taskmaster task(s) or subtask(s), e.g., '15', '15.2', or '16,17.1', to update.` (CLI: `-i, --id <id>`)
* `status`: `Required. The new status to set, e.g., 'done', 'pending', 'in-progress', 'review', 'cancelled'.` (CLI: `-s, --status <status>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Mark progress as tasks move through the development cycle.
@@ -226,7 +209,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task, e.g., '5', or subtask, e.g., '5.2', to permanently remove.` (CLI: `-i, --id <id>`)
* `yes`: `Skip the confirmation prompt and immediately delete the task.` (CLI: `-y, --yes`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Permanently delete tasks or subtasks that are no longer needed in the project.
* **Notes:** Use with caution as this operation cannot be undone. Consider using 'blocked', 'cancelled', or 'deferred' status instead if you just want to exclude a task from active planning but keep it for reference. The command automatically cleans up dependency references in other tasks.
@@ -246,7 +228,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `research`: `Enable Taskmaster to use the research role for more informed subtask generation. Requires appropriate API key.` (CLI: `-r, --research`)
* `prompt`: `Optional: Provide extra context or specific instructions to Taskmaster for generating the subtasks.` (CLI: `-p, --prompt <text>`)
* `force`: `Optional: If true, clear existing subtasks before generating new ones. Default is false (append).` (CLI: `--force`)
* `tag`: `Specify which tag context the task belongs to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Generate a detailed implementation plan for a complex task before starting coding. Automatically uses complexity report recommendations if available and `num` is not specified.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
@@ -261,7 +242,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* `research`: `Enable research role for more informed subtask generation. Requires appropriate API key.` (CLI: `-r, --research`)
* `prompt`: `Optional: Provide extra context for Taskmaster to apply generally during expansion.` (CLI: `-p, --prompt <text>`)
* `force`: `Optional: If true, clear existing subtasks before generating new ones for each eligible task. Default is false (append).` (CLI: `--force`)
* `tag`: `Specify which tag context to expand. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Useful after initial task generation or complexity analysis to break down multiple tasks at once.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
@@ -272,9 +252,8 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **CLI Command:** `task-master clear-subtasks [options]`
* **Description:** `Remove all subtasks from one or more specified Taskmaster parent tasks.`
* **Key Parameters/Options:**
* `id`: `The ID(s) of the Taskmaster parent task(s) whose subtasks you want to remove, e.g., '15' or '16,18'. Required unless using 'all'.` (CLI: `-i, --id <ids>`)
* `id`: `The ID(s) of the Taskmaster parent task(s) whose subtasks you want to remove, e.g., '15' or '16,18'. Required unless using `all`.) (CLI: `-i, --id <ids>`)
* `all`: `Tell Taskmaster to remove subtasks from all parent tasks.` (CLI: `--all`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Used before regenerating subtasks with `expand_task` if the previous breakdown needs replacement.
@@ -286,8 +265,7 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Key Parameters/Options:**
* `id`: `Required. The ID(s) of the Taskmaster subtask(s) to remove, e.g., '15.2' or '16.1,16.3'.` (CLI: `-i, --id <id>`)
* `convert`: `If used, Taskmaster will turn the subtask into a regular top-level task instead of deleting it.` (CLI: `-c, --convert`)
* `generate`: `Enable Taskmaster to regenerate markdown task files after removing the subtask.` (CLI: `--generate`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `skipGenerate`: `Prevent Taskmaster from automatically regenerating markdown task files after removing the subtask.` (CLI: `--skip-generate`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Delete unnecessary subtasks or promote a subtask to a top-level task.
@@ -299,7 +277,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Key Parameters/Options:**
* `from`: `Required. ID of the task/subtask to move (e.g., "5" or "5.2"). Can be comma-separated for multiple tasks.` (CLI: `--from <id>`)
* `to`: `Required. ID of the destination (e.g., "7" or "7.3"). Must match the number of source IDs if comma-separated.` (CLI: `--to <id>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Reorganize tasks by moving them within the hierarchy. Supports various scenarios like:
* Moving a task to become a subtask
@@ -329,7 +306,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task that will depend on another.` (CLI: `-i, --id <id>`)
* `dependsOn`: `Required. The ID of the Taskmaster task that must be completed first, the prerequisite.` (CLI: `-d, --depends-on <id>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <path>`)
* **Usage:** Establish the correct order of execution between tasks.
@@ -341,7 +317,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task you want to remove a prerequisite from.` (CLI: `-i, --id <id>`)
* `dependsOn`: `Required. The ID of the Taskmaster task that should no longer be a prerequisite.` (CLI: `-d, --depends-on <id>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Update task relationships when the order of execution changes.
@@ -351,7 +326,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **CLI Command:** `task-master validate-dependencies [options]`
* **Description:** `Check your Taskmaster tasks for dependency issues (like circular references or links to non-existent tasks) without making changes.`
* **Key Parameters/Options:**
* `tag`: `Specify which tag context to validate. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Audit the integrity of your task dependencies.
@@ -361,7 +335,6 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **CLI Command:** `task-master fix-dependencies [options]`
* **Description:** `Automatically fix dependency issues (like circular references or links to non-existent tasks) in your Taskmaster tasks.`
* **Key Parameters/Options:**
* `tag`: `Specify which tag context to fix dependencies in. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Clean up dependency errors automatically.
@@ -375,10 +348,9 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **CLI Command:** `task-master analyze-complexity [options]`
* **Description:** `Have Taskmaster analyze your tasks to determine their complexity and suggest which ones need to be broken down further.`
* **Key Parameters/Options:**
* `output`: `Where to save the complexity analysis report. Default is '.taskmaster/reports/task-complexity-report.json' (or '..._tagname.json' if a tag is used).` (CLI: `-o, --output <file>`)
* `output`: `Where to save the complexity analysis report (default: 'scripts/task-complexity-report.json').` (CLI: `-o, --output <file>`)
* `threshold`: `The minimum complexity score (1-10) that should trigger a recommendation to expand a task.` (CLI: `-t, --threshold <number>`)
* `research`: `Enable research role for more accurate complexity analysis. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context to analyze. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Used before breaking down tasks to identify which ones need the most attention.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
@@ -389,8 +361,7 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **CLI Command:** `task-master complexity-report [options]`
* **Description:** `Display the task complexity analysis report in a readable format.`
* **Key Parameters/Options:**
* `tag`: `Specify which tag context to show the report for. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to the complexity report (default: '.taskmaster/reports/task-complexity-report.json').` (CLI: `-f, --file <file>`)
* `file`: `Path to the complexity report (default: 'scripts/task-complexity-report.json').` (CLI: `-f, --file <file>`)
* **Usage:** Review and understand the complexity analysis results after running analyze-complexity.
---
@@ -404,137 +375,14 @@ This document provides a detailed reference for interacting with Taskmaster, cov
* **Description:** `Create or update individual Markdown files for each task based on your tasks.json.`
* **Key Parameters/Options:**
* `output`: `The directory where Taskmaster should save the task files (default: in a 'tasks' directory).` (CLI: `-o, --output <directory>`)
* `tag`: `Specify which tag context to generate files for. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Run this after making changes to tasks.json to keep individual task files up to date. This command is now manual and no longer runs automatically.
---
## AI-Powered Research
### 25. Research (`research`)
* **MCP Tool:** `research`
* **CLI Command:** `task-master research [options]`
* **Description:** `Perform AI-powered research queries with project context to get fresh, up-to-date information beyond the AI's knowledge cutoff.`
* **Key Parameters/Options:**
* `query`: `Required. Research query/prompt (e.g., "What are the latest best practices for React Query v5?").` (CLI: `[query]` positional or `-q, --query <text>`)
* `taskIds`: `Comma-separated list of task/subtask IDs from the current tag context (e.g., "15,16.2,17").` (CLI: `-i, --id <ids>`)
* `filePaths`: `Comma-separated list of file paths for context (e.g., "src/api.js,docs/readme.md").` (CLI: `-f, --files <paths>`)
* `customContext`: `Additional custom context text to include in the research.` (CLI: `-c, --context <text>`)
* `includeProjectTree`: `Include project file tree structure in context (default: false).` (CLI: `--tree`)
* `detailLevel`: `Detail level for the research response: 'low', 'medium', 'high' (default: medium).` (CLI: `--detail <level>`)
* `saveTo`: `Task or subtask ID (e.g., "15", "15.2") to automatically save the research conversation to.` (CLI: `--save-to <id>`)
* `saveFile`: `If true, saves the research conversation to a markdown file in '.taskmaster/docs/research/'.` (CLI: `--save-file`)
* `noFollowup`: `Disables the interactive follow-up question menu in the CLI.` (CLI: `--no-followup`)
* `tag`: `Specify which tag context to use for task-based context gathering. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `projectRoot`: `The directory of the project. Must be an absolute path.` (CLI: Determined automatically)
* **Usage:** **This is a POWERFUL tool that agents should use FREQUENTLY** to:
* Get fresh information beyond knowledge cutoff dates
* Research latest best practices, library updates, security patches
* Find implementation examples for specific technologies
* Validate approaches against current industry standards
* Get contextual advice based on project files and tasks
* **When to Consider Using Research:**
* **Before implementing any task** - Research current best practices
* **When encountering new technologies** - Get up-to-date implementation guidance (libraries, apis, etc)
* **For security-related tasks** - Find latest security recommendations
* **When updating dependencies** - Research breaking changes and migration guides
* **For performance optimization** - Get current performance best practices
* **When debugging complex issues** - Research known solutions and workarounds
* **Research + Action Pattern:**
* Use `research` to gather fresh information
* Use `update_subtask` to commit findings with timestamps
* Use `update_task` to incorporate research into task details
* Use `add_task` with research flag for informed task creation
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. The research provides FRESH data beyond the AI's training cutoff, making it invaluable for current best practices and recent developments.
---
## Tag Management
This new suite of commands allows you to manage different task contexts (tags).
### 26. List Tags (`tags`)
* **MCP Tool:** `list_tags`
* **CLI Command:** `task-master tags [options]`
* **Description:** `List all available tags with task counts, completion status, and other metadata.`
* **Key Parameters/Options:**
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* `--show-metadata`: `Include detailed metadata in the output (e.g., creation date, description).` (CLI: `--show-metadata`)
### 27. Add Tag (`add_tag`)
* **MCP Tool:** `add_tag`
* **CLI Command:** `task-master add-tag <tagName> [options]`
* **Description:** `Create a new, empty tag context, or copy tasks from another tag.`
* **Key Parameters/Options:**
* `tagName`: `Name of the new tag to create (alphanumeric, hyphens, underscores).` (CLI: `<tagName>` positional)
* `--from-branch`: `Creates a tag with a name derived from the current git branch, ignoring the <tagName> argument.` (CLI: `--from-branch`)
* `--copy-from-current`: `Copy tasks from the currently active tag to the new tag.` (CLI: `--copy-from-current`)
* `--copy-from <tag>`: `Copy tasks from a specific source tag to the new tag.` (CLI: `--copy-from <tag>`)
* `--description <text>`: `Provide an optional description for the new tag.` (CLI: `-d, --description <text>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 28. Delete Tag (`delete_tag`)
* **MCP Tool:** `delete_tag`
* **CLI Command:** `task-master delete-tag <tagName> [options]`
* **Description:** `Permanently delete a tag and all of its associated tasks.`
* **Key Parameters/Options:**
* `tagName`: `Name of the tag to delete.` (CLI: `<tagName>` positional)
* `--yes`: `Skip the confirmation prompt.` (CLI: `-y, --yes`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 29. Use Tag (`use_tag`)
* **MCP Tool:** `use_tag`
* **CLI Command:** `task-master use-tag <tagName>`
* **Description:** `Switch your active task context to a different tag.`
* **Key Parameters/Options:**
* `tagName`: `Name of the tag to switch to.` (CLI: `<tagName>` positional)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 30. Rename Tag (`rename_tag`)
* **MCP Tool:** `rename_tag`
* **CLI Command:** `task-master rename-tag <oldName> <newName>`
* **Description:** `Rename an existing tag.`
* **Key Parameters/Options:**
* `oldName`: `The current name of the tag.` (CLI: `<oldName>` positional)
* `newName`: `The new name for the tag.` (CLI: `<newName>` positional)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 31. Copy Tag (`copy_tag`)
* **MCP Tool:** `copy_tag`
* **CLI Command:** `task-master copy-tag <sourceName> <targetName> [options]`
* **Description:** `Copy an entire tag context, including all its tasks and metadata, to a new tag.`
* **Key Parameters/Options:**
* `sourceName`: `Name of the tag to copy from.` (CLI: `<sourceName>` positional)
* `targetName`: `Name of the new tag to create.` (CLI: `<targetName>` positional)
* `--description <text>`: `Optional description for the new tag.` (CLI: `-d, --description <text>`)
---
## Miscellaneous
### 32. Sync Readme (`sync-readme`) -- experimental
* **MCP Tool:** N/A
* **CLI Command:** `task-master sync-readme [options]`
* **Description:** `Exports your task list to your project's README.md file, useful for showcasing progress.`
* **Key Parameters/Options:**
* `status`: `Filter tasks by status (e.g., 'pending', 'done').` (CLI: `-s, --status <status>`)
* `withSubtasks`: `Include subtasks in the export.` (CLI: `--with-subtasks`)
* `tag`: `Specify which tag context to export from. Defaults to the current active tag.` (CLI: `--tag <name>`)
* **Usage:** Run this after making changes to tasks.json to keep individual task files up to date.
---
## Environment Variables Configuration (Updated)
Taskmaster primarily uses the **`.taskmaster/config.json`** file (in project root) for configuration (models, parameters, logging level, etc.), managed via `task-master models --setup`.
Taskmaster primarily uses the **`.taskmasterconfig`** file (in project root) for configuration (models, parameters, logging level, etc.), managed via `task-master models --setup`.
Environment variables are used **only** for sensitive API keys related to AI providers and specific overrides like the Ollama base URL:
@@ -547,13 +395,13 @@ Environment variables are used **only** for sensitive API keys related to AI pro
* `AZURE_OPENAI_API_KEY` (Requires `AZURE_OPENAI_ENDPOINT` too)
* `OPENROUTER_API_KEY`
* `XAI_API_KEY`
* `OLLAMA_API_KEY` (Requires `OLLAMA_BASE_URL` too)
* **Endpoints (Optional/Provider Specific inside .taskmaster/config.json):**
* `OLLANA_API_KEY` (Requires `OLLAMA_BASE_URL` too)
* **Endpoints (Optional/Provider Specific inside .taskmasterconfig):**
* `AZURE_OPENAI_ENDPOINT`
* `OLLAMA_BASE_URL` (Default: `http://localhost:11434/api`)
**Set API keys** in your **`.env`** file in the project root (for CLI use) or within the `env` section of your **`.cursor/mcp.json`** file (for MCP/Cursor integration). All other settings (model choice, max tokens, temperature, log level, custom endpoints) are managed in `.taskmaster/config.json` via `task-master models` command or `models` MCP tool.
**Set API keys** in your **`.env`** file in the project root (for CLI use) or within the `env` section of your **`.cursor/mcp.json`** file (for MCP/Cursor integration). All other settings (model choice, max tokens, temperature, log level, custom endpoints) are managed in `.taskmasterconfig` via `task-master models` command or `models` MCP tool.
---
For details on how these commands fit into the development process, see the [Development Workflow Guide](mdc:.cursor/rules/dev_workflow.mdc).
For details on how these commands fit into the development process, see the [Development Workflow Guide](mdc:.cursor/rules/dev_workflow.mdc).

272
.cursor/rules/tasks.mdc
View File

@@ -3,19 +3,9 @@ description: Guidelines for implementing task management operations
globs: scripts/modules/task-manager.js
alwaysApply: false
---
# Task Management Guidelines
## Tagged Task Lists System
Task Master now uses a **tagged task lists system** for multi-context task management:
- **Data Structure**: Tasks are organized into separate contexts (tags) within `tasks.json`
- **Legacy Format**: `{"tasks": [...]}`
- **Tagged Format**: `{"master": {"tasks": [...]}, "feature-branch": {"tasks": [...]}}`
- **Silent Migration**: Legacy format automatically converts to tagged format on first use
- **Tag Resolution**: Core functions receive legacy format for 100% backward compatibility
- **Default Tag**: "master" is used for all existing and new tasks unless otherwise specified
## Task Structure Standards
- **Core Task Properties**:
@@ -38,25 +28,6 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
};
```
- **Tagged Data Structure**:
- ✅ DO: Access tasks through tag resolution layer
- ✅ DO: Use `getTasksForTag(data, tagName)` to retrieve tasks for a specific tag
- ✅ DO: Use `setTasksForTag(data, tagName, tasks)` to update tasks for a specific tag
- ❌ DON'T: Directly manipulate the tagged structure in core functions
```javascript
// ✅ DO: Use tag resolution functions
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
// Manipulate tasks as normal...
// Save back to the tagged structure
setTasksForTag(tasksData, currentTag, tasks);
writeJSON(tasksPath, tasksData);
```
- **Subtask Structure**:
- ✅ DO: Use consistent properties across subtasks
- ✅ DO: Maintain simple numeric IDs within parent tasks
@@ -77,56 +48,53 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
## Task Creation and Parsing
- **ID Management**:
- ✅ DO: Assign unique sequential IDs to tasks within each tag context
- ✅ DO: Calculate the next ID based on existing tasks in the current tag
- ❌ DON'T: Hardcode or reuse IDs within the same tag
- ✅ DO: Assign unique sequential IDs to tasks
- ✅ DO: Calculate the next ID based on existing tasks
- ❌ DON'T: Hardcode or reuse IDs
```javascript
// ✅ DO: Calculate the next available ID within the current tag
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
const highestId = Math.max(...tasks.map(t => t.id));
// ✅ DO: Calculate the next available ID
const highestId = Math.max(...data.tasks.map(t => t.id));
const nextTaskId = highestId + 1;
```
- **PRD Parsing**:
- ✅ DO: Extract tasks from PRD documents using AI
- ✅ DO: Create tasks in the current tag context (defaults to "master")
- ✅ DO: Provide clear prompts to guide AI task generation
- ✅ DO: Validate and clean up AI-generated tasks
```javascript
// ✅ DO: Parse into current tag context
const tasksData = readJSON(tasksPath) || {};
const currentTag = getCurrentTag() || 'master';
// Parse tasks and add to current tag
const newTasks = await parseTasksFromPRD(prdContent);
setTasksForTag(tasksData, currentTag, newTasks);
writeJSON(tasksPath, tasksData);
// ✅ DO: Validate AI responses
try {
// Parse the JSON response
taskData = JSON.parse(jsonContent);
// Check that we have the required fields
if (!taskData.title || !taskData.description) {
throw new Error("Missing required fields in the generated task");
}
} catch (error) {
log('error', "Failed to parse AI's response as valid task JSON:", error);
process.exit(1);
}
```
## Task Updates and Modifications
- **Status Management**:
- ✅ DO: Provide functions for updating task status within current tag context
- ✅ DO: Provide functions for updating task status
- ✅ DO: Handle both individual tasks and subtasks
- ✅ DO: Consider subtask status when updating parent tasks
```javascript
// ✅ DO: Handle status updates within tagged context
// ✅ DO: Handle status updates for both tasks and subtasks
async function setTaskStatus(tasksPath, taskIdInput, newStatus) {
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
// Check if it's a subtask (e.g., "1.2")
if (taskIdInput.includes('.')) {
const [parentId, subtaskId] = taskIdInput.split('.').map(id => parseInt(id, 10));
// Find the parent task and subtask
const parentTask = tasks.find(t => t.id === parentId);
const parentTask = data.tasks.find(t => t.id === parentId);
const subtask = parentTask.subtasks.find(st => st.id === subtaskId);
// Update subtask status
@@ -141,7 +109,7 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
}
} else {
// Handle regular task
const task = tasks.find(t => t.id === parseInt(taskIdInput, 10));
const task = data.tasks.find(t => t.id === parseInt(taskIdInput, 10));
task.status = newStatus;
// If marking as done, also mark subtasks
@@ -151,24 +119,16 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
});
}
}
// Save updated tasks back to tagged structure
setTasksForTag(tasksData, currentTag, tasks);
writeJSON(tasksPath, tasksData);
}
```
- **Task Expansion**:
- ✅ DO: Use AI to generate detailed subtasks within current tag context
- ✅ DO: Use AI to generate detailed subtasks
- ✅ DO: Consider complexity analysis for subtask counts
- ✅ DO: Ensure proper IDs for newly created subtasks
```javascript
// ✅ DO: Generate appropriate subtasks based on complexity
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
if (taskAnalysis) {
log('info', `Found complexity analysis for task ${taskId}: Score ${taskAnalysis.complexityScore}/10`);
@@ -178,11 +138,6 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
log('info', `Using recommended number of subtasks: ${numSubtasks}`);
}
}
// Generate subtasks and save back
// ... subtask generation logic ...
setTasksForTag(tasksData, currentTag, tasks);
writeJSON(tasksPath, tasksData);
```
## Task File Generation
@@ -200,65 +155,67 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
// Format dependencies with their status
if (task.dependencies && task.dependencies.length > 0) {
content += `# Dependencies: ${formatDependenciesWithStatus(task.dependencies, tasks)}\n`;
content += `# Dependencies: ${formatDependenciesWithStatus(task.dependencies, data.tasks)}\n`;
} else {
content += '# Dependencies: None\n';
}
```
- **Tagged Context Awareness**:
- ✅ DO: Generate task files from current tag context
- ✅ DO: Include tag information in generated files
- DON'T: Mix tasks from different tags in file generation
- **Subtask Inclusion**:
- ✅ DO: Include subtasks in parent task files
- ✅ DO: Use consistent indentation for subtask sections
- DO: Display subtask dependencies with proper formatting
```javascript
// ✅ DO: Generate files for current tag context
async function generateTaskFiles(tasksPath, outputDir) {
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
// ✅ DO: Format subtasks correctly in task files
if (task.subtasks && task.subtasks.length > 0) {
content += '\n# Subtasks:\n';
// Add tag context to file header
let content = `# Tag Context: ${currentTag}\n`;
content += `# Task ID: ${task.id}\n`;
// ... rest of file generation
task.subtasks.forEach(subtask => {
content += `## ${subtask.id}. ${subtask.title} [${subtask.status || 'pending'}]\n`;
// Format subtask dependencies
if (subtask.dependencies && subtask.dependencies.length > 0) {
// Format the dependencies
content += `### Dependencies: ${formattedDeps}\n`;
} else {
content += '### Dependencies: None\n';
}
content += `### Description: ${subtask.description || ''}\n`;
content += '### Details:\n';
content += (subtask.details || '').split('\n').map(line => line).join('\n');
content += '\n\n';
});
}
```
## Task Listing and Display
- **Filtering and Organization**:
- ✅ DO: Allow filtering tasks by status within current tag context
- ✅ DO: Allow filtering tasks by status
- ✅ DO: Handle subtask display in lists
- ✅ DO: Use consistent table formats
```javascript
// ✅ DO: Implement clear filtering within tag context
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
// ✅ DO: Implement clear filtering and organization
// Filter tasks by status if specified
const filteredTasks = statusFilter
? tasks.filter(task =>
? data.tasks.filter(task =>
task.status && task.status.toLowerCase() === statusFilter.toLowerCase())
: tasks;
: data.tasks;
```
- **Progress Tracking**:
- ✅ DO: Calculate and display completion statistics for current tag
- ✅ DO: Calculate and display completion statistics
- ✅ DO: Track both task and subtask completion
- ✅ DO: Use visual progress indicators
```javascript
// ✅ DO: Track and display progress within tag context
const tasksData = readJSON(tasksPath);
const currentTag = getCurrentTag() || 'master';
const tasks = getTasksForTag(tasksData, currentTag);
// ✅ DO: Track and display progress
// Calculate completion statistics
const totalTasks = tasks.length;
const completedTasks = tasks.filter(task =>
const totalTasks = data.tasks.length;
const completedTasks = data.tasks.filter(task =>
task.status === 'done' || task.status === 'completed').length;
const completionPercentage = totalTasks > 0 ? (completedTasks / totalTasks) * 100 : 0;
@@ -266,7 +223,7 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
let totalSubtasks = 0;
let completedSubtasks = 0;
tasks.forEach(task => {
data.tasks.forEach(task => {
if (task.subtasks && task.subtasks.length > 0) {
totalSubtasks += task.subtasks.length;
completedSubtasks += task.subtasks.filter(st =>
@@ -275,52 +232,99 @@ Task Master now uses a **tagged task lists system** for multi-context task manag
});
```
## Migration and Compatibility
## Complexity Analysis
- **Silent Migration Handling**:
- ✅ DO: Implement silent migration in `readJSON()` function
- ✅ DO: Detect legacy format and convert automatically
- ✅ DO: Preserve all existing task data during migration
- **Scoring System**:
- ✅ DO: Use AI to analyze task complexity
- ✅ DO: Include complexity scores (1-10)
- ✅ DO: Generate specific expansion recommendations
```javascript
// ✅ DO: Handle silent migration (implemented in utils.js)
function readJSON(filepath) {
let data = JSON.parse(fs.readFileSync(filepath, 'utf8'));
// ✅ DO: Handle complexity analysis properly
const report = {
meta: {
generatedAt: new Date().toISOString(),
tasksAnalyzed: tasksData.tasks.length,
thresholdScore: thresholdScore,
projectName: tasksData.meta?.projectName || 'Your Project Name',
usedResearch: useResearch
},
complexityAnalysis: complexityAnalysis
};
```
- **Analysis-Based Workflow**:
- ✅ DO: Use complexity reports to guide task expansion
- ✅ DO: Prioritize complex tasks for more detailed breakdown
- ✅ DO: Use expansion prompts from complexity analysis
```javascript
// ✅ DO: Apply complexity analysis to workflow
// Sort tasks by complexity if report exists, otherwise by ID
if (complexityReport && complexityReport.complexityAnalysis) {
log('info', 'Sorting tasks by complexity...');
// Silent migration for tasks.json files
if (data.tasks && Array.isArray(data.tasks) && !data.master && isTasksFile) {
const migratedData = {
master: {
tasks: data.tasks
}
};
writeJSON(filepath, migratedData);
data = migratedData;
}
// Create a map of task IDs to complexity scores
const complexityMap = new Map();
complexityReport.complexityAnalysis.forEach(analysis => {
complexityMap.set(analysis.taskId, analysis.complexityScore);
});
return data;
// Sort tasks by complexity score (high to low)
tasksToExpand.sort((a, b) => {
const scoreA = complexityMap.get(a.id) || 0;
const scoreB = complexityMap.get(b.id) || 0;
return scoreB - scoreA;
});
}
```
- **Tag Resolution**:
- ✅ DO: Use tag resolution functions to maintain backward compatibility
- ✅ DO: Return legacy format to core functions
- DON'T: Expose tagged structure to existing core logic
## Next Task Selection
- **Eligibility Criteria**:
- DO: Consider dependencies when finding next tasks
- ✅ DO: Prioritize by task priority and dependency count
- ✅ DO: Skip completed tasks
```javascript
// ✅ DO: Use tag resolution layer
function getTasksForTag(data, tagName) {
if (data.tasks && Array.isArray(data.tasks)) {
// Legacy format - return as-is
return data.tasks;
}
// ✅ DO: Use proper task prioritization logic
function findNextTask(tasks) {
// Get all completed task IDs
const completedTaskIds = new Set(
tasks
.filter(t => t.status === 'done' || t.status === 'completed')
.map(t => t.id)
);
if (data[tagName] && data[tagName].tasks) {
// Tagged format - return tasks for specified tag
return data[tagName].tasks;
}
// Filter for pending tasks whose dependencies are all satisfied
const eligibleTasks = tasks.filter(task =>
(task.status === 'pending' || task.status === 'in-progress') &&
task.dependencies &&
task.dependencies.every(depId => completedTaskIds.has(depId))
);
return [];
// Sort by priority, dependency count, and ID
const priorityValues = { 'high': 3, 'medium': 2, 'low': 1 };
const nextTask = eligibleTasks.sort((a, b) => {
// Priority first
const priorityA = priorityValues[a.priority || 'medium'] || 2;
const priorityB = priorityValues[b.priority || 'medium'] || 2;
if (priorityB !== priorityA) {
return priorityB - priorityA; // Higher priority first
}
// Dependency count next
if (a.dependencies.length !== b.dependencies.length) {
return a.dependencies.length - b.dependencies.length; // Fewer dependencies first
}
// ID last
return a.id - b.id; // Lower ID first
})[0];
return nextTask;
}
```

803
.cursor/rules/test_workflow.mdc
View File

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

89
.cursor/rules/ui.mdc
View File

@@ -150,91 +150,4 @@ alwaysApply: false
));
```
## Enhanced Display Patterns
### **Token Breakdown Display**
- Use detailed, granular token breakdowns for AI-powered commands
- Display context sources with individual token counts
- Show both token count and character count for transparency
```javascript
// ✅ DO: Display detailed token breakdown
function displayDetailedTokenBreakdown(tokenBreakdown, systemTokens, userTokens) {
const sections = [];
if (tokenBreakdown.tasks?.length > 0) {
const taskDetails = tokenBreakdown.tasks.map(task =>
`${task.type === 'subtask' ? ' ' : ''}${task.id}: ${task.tokens.toLocaleString()}`
).join('\n');
sections.push(`Tasks (${tokenBreakdown.tasks.reduce((sum, t) => sum + t.tokens, 0).toLocaleString()}):\n${taskDetails}`);
}
const content = sections.join('\n\n');
console.log(boxen(content, {
title: chalk.cyan('Token Usage'),
padding: { top: 1, bottom: 1, left: 2, right: 2 },
borderStyle: 'round',
borderColor: 'cyan'
}));
}
```
### **Code Block Syntax Highlighting**
- Use `cli-highlight` library for syntax highlighting in terminal output
- Process code blocks in AI responses for better readability
```javascript
// ✅ DO: Enhance code blocks with syntax highlighting
import { highlight } from 'cli-highlight';
function processCodeBlocks(text) {
return text.replace(/```(\w+)?\n([\s\S]*?)```/g, (match, language, code) => {
try {
const highlighted = highlight(code.trim(), {
language: language || 'javascript',
theme: 'default'
});
return `\n${highlighted}\n`;
} catch (error) {
return `\n${code.trim()}\n`;
}
});
}
```
### **Multi-Section Result Display**
- Use separate boxes for headers, content, and metadata
- Maintain consistent styling across different result types
```javascript
// ✅ DO: Use structured result display
function displayResults(result, query, detailLevel) {
// Header with query info
const header = boxen(
chalk.green.bold('Research Results') + '\n\n' +
chalk.gray('Query: ') + chalk.white(query) + '\n' +
chalk.gray('Detail Level: ') + chalk.cyan(detailLevel),
{
padding: { top: 1, bottom: 1, left: 2, right: 2 },
margin: { top: 1, bottom: 0 },
borderStyle: 'round',
borderColor: 'green'
}
);
console.log(header);
// Process and display main content
const processedResult = processCodeBlocks(result);
const contentBox = boxen(processedResult, {
padding: { top: 1, bottom: 1, left: 2, right: 2 },
margin: { top: 0, bottom: 1 },
borderStyle: 'single',
borderColor: 'gray'
});
console.log(contentBox);
console.log(chalk.green('✓ Operation complete'));
}
```
Refer to [`ui.js`](mdc:scripts/modules/ui.js) for implementation examples, [`context_gathering.mdc`](mdc:.cursor/rules/context_gathering.mdc) for context display patterns, and [`new_features.mdc`](mdc:.cursor/rules/new_features.mdc) for integration guidelines.
Refer to [`ui.js`](mdc:scripts/modules/ui.js) for implementation examples and [`new_features.mdc`](mdc:.cursor/rules/new_features.mdc) for integration guidelines.

634
.cursor/rules/utilities.mdc
View File

@@ -1,6 +1,6 @@
---
description:
globs:
description: Guidelines for implementing utility functions
globs: scripts/modules/utils.js, mcp-server/src/**/*
alwaysApply: false
---
# Utility Function Guidelines
@@ -46,7 +46,7 @@ alwaysApply: false
- **Location**:
- **Core CLI Utilities**: Place utilities used primarily by the core `task-master` CLI logic and command modules (`scripts/modules/*`) into [`scripts/modules/utils.js`](mdc:scripts/modules/utils.js).
- **MCP Server Utilities**: Place utilities specifically designed to support the MCP server implementation into the appropriate subdirectories within `mcp-server/src/`.
- Path/Core Logic Helpers: [`mcp-server/src/core/utils/`](mdc:mcp-server/src/core/utils) (e.g., `path-utils.js`).
- Path/Core Logic Helpers: [`mcp-server/src/core/utils/`](mdc:mcp-server/src/core/utils/) (e.g., `path-utils.js`).
- Tool Execution/Response Helpers: [`mcp-server/src/tools/utils.js`](mdc:mcp-server/src/tools/utils.js).
## Documentation Standards
@@ -110,7 +110,7 @@ Taskmaster configuration (excluding API keys) is primarily managed through the `
- ✅ DO: Use appropriate icons for different log levels
- ✅ DO: Respect the configured log level
- ❌ DON'T: Add direct console.log calls outside the logging utility
- **Note on Passed Loggers**: When a logger object (like the FastMCP `log` object) is passed *as a parameter* (e.g., as `mcpLog`) into core Task Master functions, the receiving function often expects specific methods (`.info`, `.warn`, `.error`, etc.) to be directly callable on that object (e.g., `mcpLog[level](mdc:...)`). If the passed logger doesn't have this exact structure, a wrapper object may be needed. See the **Handling Logging Context (`mcpLog`)** section in [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc) for the standard pattern used in direct functions.
- **Note on Passed Loggers**: When a logger object (like the FastMCP `log` object) is passed *as a parameter* (e.g., as `mcpLog`) into core Task Master functions, the receiving function often expects specific methods (`.info`, `.warn`, `.error`, etc.) to be directly callable on that object (e.g., `mcpLog[level](...)`). If the passed logger doesn't have this exact structure, a wrapper object may be needed. See the **Handling Logging Context (`mcpLog`)** section in [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc) for the standard pattern used in direct functions.
- **Logger Wrapper Pattern**:
- ✅ DO: Use the logger wrapper pattern when passing loggers to prevent `mcpLog[level] is not a function` errors:
@@ -548,628 +548,4 @@ export {
};
```
## Context Gathering Utilities
### **ContextGatherer** (`scripts/modules/utils/contextGatherer.js`)
- **Multi-Source Context Extraction**:
- ✅ DO: Use for AI-powered commands that need project context
- ✅ DO: Support tasks, files, custom text, and project tree context
- ✅ DO: Implement detailed token counting with `gpt-tokens` library
- ✅ DO: Provide multiple output formats (research, chat, system-prompt)
```javascript
// ✅ DO: Use ContextGatherer for consistent context extraction
import { ContextGatherer } from '../utils/contextGatherer.js';
const gatherer = new ContextGatherer(projectRoot, tasksPath);
const result = await gatherer.gather({
tasks: ['15', '16.2'],
files: ['src/api.js'],
customContext: 'Additional context',
includeProjectTree: true,
format: 'research',
includeTokenCounts: true
});
```
### **FuzzyTaskSearch** (`scripts/modules/utils/fuzzyTaskSearch.js`)
- **Intelligent Task Discovery**:
- ✅ DO: Use for automatic task relevance detection
- ✅ DO: Configure search parameters based on use case context
- ✅ DO: Implement purpose-based categorization for better matching
- ✅ DO: Sort results by relevance score and task ID
```javascript
// ✅ DO: Use FuzzyTaskSearch for intelligent task discovery
import { FuzzyTaskSearch } from '../utils/fuzzyTaskSearch.js';
const fuzzySearch = new FuzzyTaskSearch(tasksData.tasks, 'research');
const searchResults = fuzzySearch.findRelevantTasks(query, {
maxResults: 8,
includeRecent: true,
includeCategoryMatches: true
});
const taskIds = fuzzySearch.getTaskIds(searchResults);
```
- **Integration Guidelines**:
- ✅ DO: Use fuzzy search to supplement user-provided task IDs
- ✅ DO: Display discovered task IDs to users for transparency
- ✅ DO: Sort discovered task IDs numerically for better readability
- ❌ DON'T: Replace explicit user task selections with fuzzy results
Refer to [`context_gathering.mdc`](mdc:.cursor/rules/context_gathering.mdc) for detailed implementation patterns, [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc) and [`architecture.mdc`](mdc:.cursor/rules/architecture.mdc) for more context on MCP server architecture and integration.
## File System Operations
- **JSON File Handling**:
- ✅ DO: Use `readJSON` and `writeJSON` for all JSON operations
- ✅ DO: Include error handling for file operations
- ✅ DO: Validate JSON structure after reading
- ❌ DON'T: Use raw `fs.readFileSync` or `fs.writeFileSync` for JSON
```javascript
// ✅ DO: Use utility functions with error handling
function readJSON(filepath) {
try {
if (!fs.existsSync(filepath)) {
return null; // or appropriate default
}
let data = JSON.parse(fs.readFileSync(filepath, 'utf8'));
// Silent migration for tasks.json files: Transform old format to tagged format
const isTasksFile = filepath.includes('tasks.json') || path.basename(filepath) === 'tasks.json';
if (data && data.tasks && Array.isArray(data.tasks) && !data.master && isTasksFile) {
// Migrate from old format { "tasks": [...] } to new format { "master": { "tasks": [...] } }
const migratedData = {
master: {
tasks: data.tasks
}
};
writeJSON(filepath, migratedData);
// Set global flag for CLI notice and perform complete migration
global.taskMasterMigrationOccurred = true;
performCompleteTagMigration(filepath);
data = migratedData;
}
return data;
} catch (error) {
log('error', `Failed to read JSON from ${filepath}: ${error.message}`);
return null;
}
}
function writeJSON(filepath, data) {
try {
const dirPath = path.dirname(filepath);
if (!fs.existsSync(dirPath)) {
fs.mkdirSync(dirPath, { recursive: true });
}
fs.writeFileSync(filepath, JSON.stringify(data, null, 2));
} catch (error) {
log('error', `Failed to write JSON to ${filepath}: ${error.message}`);
throw error;
}
}
```
- **Path Resolution**:
- ✅ DO: Use `path.join()` for cross-platform path construction
- ✅ DO: Use `path.resolve()` for absolute paths
- ✅ DO: Validate paths before file operations
```javascript
// ✅ DO: Handle paths correctly
function findProjectRoot(startPath = process.cwd()) {
let currentPath = path.resolve(startPath);
const rootPath = path.parse(currentPath).root;
while (currentPath !== rootPath) {
const taskMasterPath = path.join(currentPath, '.taskmaster');
if (fs.existsSync(taskMasterPath)) {
return currentPath;
}
currentPath = path.dirname(currentPath);
}
return null; // Not found
}
```
## Tagged Task Lists System Utilities
- **Tag Resolution Functions**:
- ✅ DO: Use tag resolution layer for all task data access
- ✅ DO: Provide backward compatibility with legacy format
- ✅ DO: Default to "master" tag when no tag is specified
```javascript
// ✅ DO: Implement tag resolution functions
function getTasksForTag(data, tagName = 'master') {
if (!data) {
return [];
}
// Handle legacy format - direct tasks array
if (data.tasks && Array.isArray(data.tasks)) {
return data.tasks;
}
// Handle tagged format - tasks under specific tag
if (data[tagName] && data[tagName].tasks && Array.isArray(data[tagName].tasks)) {
return data[tagName].tasks;
}
return [];
}
function setTasksForTag(data, tagName = 'master', tasks) {
// Ensure data object exists
if (!data) {
data = {};
}
// Create tag structure if it doesn't exist
if (!data[tagName]) {
data[tagName] = {};
}
// Set tasks for the tag
data[tagName].tasks = tasks;
return data;
}
function getCurrentTag() {
// Get current tag from state.json or default to 'master'
try {
const projectRoot = findProjectRoot();
if (!projectRoot) return 'master';
const statePath = path.join(projectRoot, '.taskmaster', 'state.json');
if (fs.existsSync(statePath)) {
const state = readJSON(statePath);
return state.currentTag || 'master';
}
} catch (error) {
log('debug', `Error reading current tag: ${error.message}`);
}
return 'master';
}
```
- **Migration Functions**:
- ✅ DO: Implement complete migration for all related files
- ✅ DO: Handle configuration and state file creation
- ✅ DO: Provide migration status tracking
```javascript
// ✅ DO: Implement complete migration system
function performCompleteTagMigration(tasksJsonPath) {
try {
// Derive project root from tasks.json path
const projectRoot = findProjectRoot(path.dirname(tasksJsonPath)) || path.dirname(tasksJsonPath);
// 1. Migrate config.json - add defaultTag and tags section
const configPath = path.join(projectRoot, '.taskmaster', 'config.json');
if (fs.existsSync(configPath)) {
migrateConfigJson(configPath);
}
// 2. Create state.json if it doesn't exist
const statePath = path.join(projectRoot, '.taskmaster', 'state.json');
if (!fs.existsSync(statePath)) {
createStateJson(statePath);
}
if (getDebugFlag()) {
log('debug', 'Completed tagged task lists migration for project');
}
} catch (error) {
if (getDebugFlag()) {
log('warn', `Error during complete tag migration: ${error.message}`);
}
}
}
function migrateConfigJson(configPath) {
try {
const config = readJSON(configPath);
if (!config) return;
let modified = false;
// Add global.defaultTag if missing
if (!config.global) {
config.global = {};
}
if (!config.global.defaultTag) {
config.global.defaultTag = 'master';
modified = true;
}
// Add tags section if missing
if (!config.tags) {
config.tags = {
// Git integration settings removed - now manual only
};
modified = true;
}
if (modified) {
writeJSON(configPath, config);
if (getDebugFlag()) {
log('debug', 'Updated config.json with tagged task system settings');
}
}
} catch (error) {
if (getDebugFlag()) {
log('warn', `Error migrating config.json: ${error.message}`);
}
}
}
function createStateJson(statePath) {
try {
const initialState = {
currentTag: 'master',
lastSwitched: new Date().toISOString(),
migrationNoticeShown: false
};
writeJSON(statePath, initialState);
if (getDebugFlag()) {
log('debug', 'Created initial state.json for tagged task system');
}
} catch (error) {
if (getDebugFlag()) {
log('warn', `Error creating state.json: ${error.message}`);
}
}
}
function markMigrationForNotice() {
try {
const projectRoot = findProjectRoot();
if (!projectRoot) return;
const statePath = path.join(projectRoot, '.taskmaster', 'state.json');
const state = readJSON(statePath) || {};
state.migrationNoticeShown = false; // Reset to show notice
writeJSON(statePath, state);
} catch (error) {
if (getDebugFlag()) {
log('warn', `Error marking migration for notice: ${error.message}`);
}
}
}
```
## Logging Functions
- **Consistent Logging**:
- ✅ DO: Use the central `log` function for all output
- ✅ DO: Use appropriate log levels (info, warn, error, debug)
- ✅ DO: Support silent mode for programmatic usage
```javascript
// ✅ DO: Implement consistent logging with silent mode
let silentMode = false;
function log(level, ...messages) {
if (silentMode && level !== 'error') {
return; // Suppress non-error logs in silent mode
}
const timestamp = new Date().toISOString();
const formattedMessage = messages.join(' ');
switch (level) {
case 'error':
console.error(`[ERROR] ${formattedMessage}`);
break;
case 'warn':
console.warn(`[WARN] ${formattedMessage}`);
break;
case 'info':
console.log(`[INFO] ${formattedMessage}`);
break;
case 'debug':
if (getDebugFlag()) {
console.log(`[DEBUG] ${formattedMessage}`);
}
break;
default:
console.log(formattedMessage);
}
}
function enableSilentMode() {
silentMode = true;
}
function disableSilentMode() {
silentMode = false;
}
function isSilentMode() {
return silentMode;
}
```
## Task Utilities
- **Task Finding and Manipulation**:
- ✅ DO: Use tagged task system aware functions
- ✅ DO: Handle both task and subtask operations
- ✅ DO: Validate task IDs before operations
```javascript
// ✅ DO: Implement tag-aware task utilities
function findTaskById(tasks, taskId) {
if (!Array.isArray(tasks)) {
return null;
}
return tasks.find(task => task.id === taskId) || null;
}
function findSubtaskById(tasks, parentId, subtaskId) {
const parentTask = findTaskById(tasks, parentId);
if (!parentTask || !parentTask.subtasks) {
return null;
}
return parentTask.subtasks.find(subtask => subtask.id === subtaskId) || null;
}
function getNextTaskId(tasks) {
if (!Array.isArray(tasks) || tasks.length === 0) {
return 1;
}
const maxId = Math.max(...tasks.map(task => task.id));
return maxId + 1;
}
function getNextSubtaskId(parentTask) {
if (!parentTask.subtasks || parentTask.subtasks.length === 0) {
return 1;
}
const maxId = Math.max(...parentTask.subtasks.map(subtask => subtask.id));
return maxId + 1;
}
```
## String Utilities
- **Text Processing**:
- ✅ DO: Handle text truncation appropriately
- ✅ DO: Provide consistent formatting functions
- ✅ DO: Support different output formats
```javascript
// ✅ DO: Implement useful string utilities
function truncate(str, maxLength = 50) {
if (!str || typeof str !== 'string') {
return '';
}
if (str.length <= maxLength) {
return str;
}
return str.substring(0, maxLength - 3) + '...';
}
function formatDuration(ms) {
const seconds = Math.floor(ms / 1000);
const minutes = Math.floor(seconds / 60);
const hours = Math.floor(minutes / 60);
if (hours > 0) {
return `${hours}h ${minutes % 60}m ${seconds % 60}s`;
} else if (minutes > 0) {
return `${minutes}m ${seconds % 60}s`;
} else {
return `${seconds}s`;
}
}
function capitalizeFirst(str) {
if (!str || typeof str !== 'string') {
return '';
}
return str.charAt(0).toUpperCase() + str.slice(1).toLowerCase();
}
```
## Dependency Management Utilities
- **Dependency Analysis**:
- ✅ DO: Detect circular dependencies
- ✅ DO: Validate dependency references
- ✅ DO: Support cross-tag dependency checking (future enhancement)
```javascript
// ✅ DO: Implement dependency utilities
function findCycles(tasks) {
const cycles = [];
const visited = new Set();
const recStack = new Set();
function dfs(taskId, path = []) {
if (recStack.has(taskId)) {
// Found a cycle
const cycleStart = path.indexOf(taskId);
const cycle = path.slice(cycleStart).concat([taskId]);
cycles.push(cycle);
return;
}
if (visited.has(taskId)) {
return;
}
visited.add(taskId);
recStack.add(taskId);
const task = findTaskById(tasks, taskId);
if (task && task.dependencies) {
task.dependencies.forEach(depId => {
dfs(depId, path.concat([taskId]));
});
}
recStack.delete(taskId);
}
tasks.forEach(task => {
if (!visited.has(task.id)) {
dfs(task.id);
}
});
return cycles;
}
function validateDependencies(tasks) {
const validationErrors = [];
const taskIds = new Set(tasks.map(task => task.id));
tasks.forEach(task => {
if (task.dependencies) {
task.dependencies.forEach(depId => {
if (!taskIds.has(depId)) {
validationErrors.push({
taskId: task.id,
invalidDependency: depId,
message: `Task ${task.id} depends on non-existent task ${depId}`
});
}
});
}
});
return validationErrors;
}
```
## Environment and Configuration Utilities
- **Environment Variable Resolution**:
- ✅ DO: Support both `.env` files and MCP session environment
- ✅ DO: Provide fallbacks for missing values
- ✅ DO: Handle API key resolution correctly
```javascript
// ✅ DO: Implement flexible environment resolution
function resolveEnvVariable(key, sessionEnv = null) {
// First check session environment (for MCP)
if (sessionEnv && sessionEnv[key]) {
return sessionEnv[key];
}
// Then check process environment
if (process.env[key]) {
return process.env[key];
}
// Finally try .env file if in project root
try {
const projectRoot = findProjectRoot();
if (projectRoot) {
const envPath = path.join(projectRoot, '.env');
if (fs.existsSync(envPath)) {
const envContent = fs.readFileSync(envPath, 'utf8');
const lines = envContent.split('\n');
for (const line of lines) {
const [envKey, envValue] = line.split('=');
if (envKey && envKey.trim() === key) {
return envValue ? envValue.trim().replace(/^["']|["']$/g, '') : undefined;
}
}
}
}
} catch (error) {
log('debug', `Error reading .env file: ${error.message}`);
}
return undefined;
}
function getDebugFlag() {
const debugFlag = resolveEnvVariable('TASKMASTER_DEBUG') ||
resolveEnvVariable('DEBUG') ||
'false';
return debugFlag.toLowerCase() === 'true';
}
```
## Export Pattern
- **Module Exports**:
- ✅ DO: Export all utility functions explicitly
- ✅ DO: Group related functions logically
- ✅ DO: Include new tagged system utilities
```javascript
// ✅ DO: Export utilities in logical groups
module.exports = {
// File system utilities
readJSON,
writeJSON,
findProjectRoot,
// Tagged task system utilities
getTasksForTag,
setTasksForTag,
getCurrentTag,
performCompleteTagMigration,
migrateConfigJson,
createStateJson,
markMigrationForNotice,
// Logging utilities
log,
enableSilentMode,
disableSilentMode,
isSilentMode,
// Task utilities
findTaskById,
findSubtaskById,
getNextTaskId,
getNextSubtaskId,
// String utilities
truncate,
formatDuration,
capitalizeFirst,
// Dependency utilities
findCycles,
validateDependencies,
// Environment utilities
resolveEnvVariable,
getDebugFlag,
// Legacy utilities (maintained for compatibility)
aggregateTelemetry
};
```
Refer to [`utils.js`](mdc:scripts/modules/utils.js) for implementation examples and [`architecture.mdc`](mdc:.cursor/rules/architecture.mdc) for integration patterns.
Refer to [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc) and [`architecture.mdc`](mdc:.cursor/rules/architecture.mdc) for more context on MCP server architecture and integration.

2
.env.example
View File

@@ -4,11 +4,9 @@ PERPLEXITY_API_KEY=YOUR_PERPLEXITY_KEY_HERE
OPENAI_API_KEY=YOUR_OPENAI_KEY_HERE
GOOGLE_API_KEY=YOUR_GOOGLE_KEY_HERE
MISTRAL_API_KEY=YOUR_MISTRAL_KEY_HERE
GROQ_API_KEY=YOUR_GROQ_KEY_HERE
OPENROUTER_API_KEY=YOUR_OPENROUTER_KEY_HERE
XAI_API_KEY=YOUR_XAI_KEY_HERE
AZURE_OPENAI_API_KEY=YOUR_AZURE_KEY_HERE
OLLAMA_API_KEY=YOUR_OLLAMA_API_KEY_HERE
# Google Vertex AI Configuration
VERTEX_PROJECT_ID=your-gcp-project-id

45
.github/PULL_REQUEST_TEMPLATE.md vendored
View File

@@ -1,45 +0,0 @@
# What type of PR is this?
<!-- Check one -->
- [ ] 🐛 Bug fix
- [ ] ✨ Feature
- [ ] 🔌 Integration
- [ ] 📝 Docs
- [ ] 🧹 Refactor
- [ ] Other:
## Description
<!-- What does this PR do? -->
## Related Issues
<!-- Link issues: Fixes #123 -->
## How to Test This
<!-- Quick steps to verify the changes work -->
```bash
# Example commands or steps
```
**Expected result:**
<!-- What should happen? -->
## Contributor Checklist
- [ ] Created changeset: `npm run changeset`
- [ ] Tests pass: `npm test`
- [ ] Format check passes: `npm run format-check` (or `npm run format` to fix)
- [ ] Addressed CodeRabbit comments (if any)
- [ ] Linked related issues (if any)
- [ ] Manually tested the changes
## Changelog Entry
<!-- One line describing the change for users -->
<!-- Example: "Added Kiro IDE integration with automatic task status updates" -->
---
### For Maintainers
- [ ] PR title follows conventional commits
- [ ] Target branch correct
- [ ] Labels added
- [ ] Milestone assigned (if applicable)

39
.github/PULL_REQUEST_TEMPLATE/bugfix.md vendored
View File

@@ -1,39 +0,0 @@
## 🐛 Bug Fix
### 🔍 Bug Description
<!-- Describe the bug -->
### 🔗 Related Issues
<!-- Fixes #123 -->
### ✨ Solution
<!-- How does this PR fix the bug? -->
## How to Test
### Steps that caused the bug:
1.
2.
**Before fix:**
**After fix:**
### Quick verification:
```bash
# Commands to verify the fix
```
## Contributor Checklist
- [ ] Created changeset: `npm run changeset`
- [ ] Tests pass: `npm test`
- [ ] Format check passes: `npm run format-check`
- [ ] Addressed CodeRabbit comments
- [ ] Added unit tests (if applicable)
- [ ] Manually verified the fix works
---
### For Maintainers
- [ ] Root cause identified
- [ ] Fix doesn't introduce new issues
- [ ] CI passes

11
.github/PULL_REQUEST_TEMPLATE/config.yml vendored
View File

@@ -1,11 +0,0 @@
blank_issues_enabled: false
contact_links:
- name: 🐛 Bug Fix
url: https://github.com/eyaltoledano/claude-task-master/compare/next...HEAD?template=bugfix.md
about: Fix a bug in Task Master
- name: ✨ New Feature
url: https://github.com/eyaltoledano/claude-task-master/compare/next...HEAD?template=feature.md
about: Add a new feature to Task Master
- name: 🔌 New Integration
url: https://github.com/eyaltoledano/claude-task-master/compare/next...HEAD?template=integration.md
about: Add support for a new tool, IDE, or platform

49
.github/PULL_REQUEST_TEMPLATE/feature.md vendored
View File

@@ -1,49 +0,0 @@
## ✨ New Feature
### 📋 Feature Description
<!-- Brief description -->
### 🎯 Problem Statement
<!-- What problem does this feature solve? Why is it needed? -->
### 💡 Solution
<!-- How does this feature solve the problem? What's the approach? -->
### 🔗 Related Issues
<!-- Link related issues: Fixes #123, Part of #456 -->
## How to Use It
### Quick Start
```bash
# Basic usage example
```
### Example
<!-- Show a real use case -->
```bash
# Practical example
```
**What you should see:**
<!-- Expected behavior -->
## Contributor Checklist
- [ ] Created changeset: `npm run changeset`
- [ ] Tests pass: `npm test`
- [ ] Format check passes: `npm run format-check`
- [ ] Addressed CodeRabbit comments
- [ ] Added tests for new functionality
- [ ] Manually tested in CLI mode
- [ ] Manually tested in MCP mode (if applicable)
## Changelog Entry
<!-- One-liner for release notes -->
---
### For Maintainers
- [ ] Feature aligns with project vision
- [ ] CIs pass
- [ ] Changeset file exists

53
.github/PULL_REQUEST_TEMPLATE/integration.md vendored
View File

@@ -1,53 +0,0 @@
# 🔌 New Integration
## What tool/IDE is being integrated?
<!-- Name and brief description -->
## What can users do with it?
<!-- Key benefits -->
## How to Enable
### Setup
```bash
task-master rules add [name]
# Any other setup steps
```
### Example Usage
<!-- Show it in action -->
```bash
# Real example
```
### Natural Language Hooks (if applicable)
```
"When tests pass, mark task as done"
# Other examples
```
## Contributor Checklist
- [ ] Created changeset: `npm run changeset`
- [ ] Tests pass: `npm test`
- [ ] Format check passes: `npm run format-check`
- [ ] Addressed CodeRabbit comments
- [ ] Integration fully tested with target tool/IDE
- [ ] Error scenarios tested
- [ ] Added integration tests
- [ ] Documentation includes setup guide
- [ ] Examples are working and clear
---
## For Maintainers
- [ ] Integration stability verified
- [ ] Documentation comprehensive
- [ ] Examples working

259
.github/scripts/auto-close-duplicates.mjs vendored
View File

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

178
.github/scripts/backfill-duplicate-comments.mjs vendored
View File

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

102
.github/scripts/check-pre-release-mode.mjs vendored
View File

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

157
.github/scripts/parse-metrics.mjs vendored
View File

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

30
.github/scripts/release.mjs vendored
View File

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

33
.github/scripts/tag-extension.mjs vendored
View File

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

88
.github/scripts/utils.mjs vendored
View File

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

31
.github/workflows/auto-close-duplicates.yml vendored
View File

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

46
.github/workflows/backfill-duplicate-comments.yml vendored
View File

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

126
.github/workflows/ci.yml vendored
View File

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

81
.github/workflows/claude-dedupe-issues.yml vendored
View File

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

57
.github/workflows/claude-docs-trigger.yml vendored
View File

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

145
.github/workflows/claude-docs-updater.yml vendored
View File

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

107
.github/workflows/claude-issue-triage.yml vendored
View File

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

36
.github/workflows/claude.yml vendored
View File

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

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

110
.github/workflows/extension-release.yml vendored
View File

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

176
.github/workflows/log-issue-events.yml vendored
View File

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

55
.github/workflows/pre-release.yml vendored
View File

@@ -3,13 +3,11 @@ name: Pre-Release (RC)
on:
workflow_dispatch: # Allows manual triggering from GitHub UI/API
concurrency: pre-release-${{ github.ref_name }}
concurrency: pre-release-${{ github.ref }}
jobs:
rc:
runs-on: ubuntu-latest
# Only allow pre-releases on non-main branches
if: github.ref != 'refs/heads/main'
environment: extension-release
steps:
- uses: actions/checkout@v4
with:
@@ -18,7 +16,7 @@ jobs:
- uses: actions/setup-node@v4
with:
node-version: 20
cache: "npm"
cache: 'npm'
- name: Cache node_modules
uses: actions/cache@v4
@@ -34,30 +32,10 @@ jobs:
run: npm ci
timeout-minutes: 2
- name: Enter RC mode (if not already in RC mode)
- name: Enter RC mode
run: |
# Check if we're in pre-release mode with the "rc" tag
if [ -f .changeset/pre.json ]; then
MODE=$(jq -r '.mode' .changeset/pre.json 2>/dev/null || echo '')
TAG=$(jq -r '.tag' .changeset/pre.json 2>/dev/null || echo '')
if [ "$MODE" = "exit" ]; then
echo "Pre-release mode is in 'exit' state, re-entering RC mode..."
npx changeset pre enter rc
elif [ "$MODE" = "pre" ] && [ "$TAG" != "rc" ]; then
echo "In pre-release mode but with wrong tag ($TAG), switching to RC..."
npx changeset pre exit
npx changeset pre enter rc
elif [ "$MODE" = "pre" ] && [ "$TAG" = "rc" ]; then
echo "Already in RC pre-release mode"
else
echo "Unknown mode state: $MODE, entering RC mode..."
npx changeset pre enter rc
fi
else
echo "No pre.json found, entering RC mode..."
npx changeset pre enter rc
fi
npx changeset pre exit || true
npx changeset pre enter rc
- name: Version RC packages
run: npx changeset version
@@ -65,31 +43,20 @@ jobs:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
NPM_TOKEN: ${{ secrets.NPM_TOKEN }}
- name: Run format
run: npm run format
env:
FORCE_COLOR: 1
- name: Build packages
run: npm run turbo:build
env:
NODE_ENV: production
FORCE_COLOR: 1
TM_PUBLIC_BASE_DOMAIN: ${{ secrets.TM_PUBLIC_BASE_DOMAIN }}
TM_PUBLIC_SUPABASE_URL: ${{ secrets.TM_PUBLIC_SUPABASE_URL }}
TM_PUBLIC_SUPABASE_ANON_KEY: ${{ secrets.TM_PUBLIC_SUPABASE_ANON_KEY }}
- name: Create Release Candidate Pull Request or Publish Release Candidate to npm
uses: changesets/action@v1
with:
publish: npx changeset publish
publish: npm run release
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
NPM_TOKEN: ${{ secrets.NPM_TOKEN }}
- name: Exit RC mode
run: npx changeset pre exit
- name: Commit & Push changes
uses: actions-js/push@master
with:
github_token: ${{ secrets.GITHUB_TOKEN }}
branch: ${{ github.ref }}
message: "chore: rc version bump"
message: 'chore: rc version bump'

21
.github/workflows/release-check.yml vendored
View File

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

22
.github/workflows/release.yml vendored
View File

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

108
.github/workflows/weekly-metrics-discord.yml vendored
View File

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

39
.gitignore vendored
View File

@@ -19,25 +19,12 @@ npm-debug.log*
yarn-debug.log*
yarn-error.log*
lerna-debug.log*
# Coverage directory used by tools like istanbul
coverage/
*.lcov
# Jest cache
.jest/
# Test temporary files and directories
tests/temp/
tests/e2e/_runs/
tests/e2e/log/
tests/**/*.log
tests/**/coverage/
# Test database files (if any)
tests/**/*.db
tests/**/*.sqlite
tests/**/*.sqlite3
# Coverage directory used by tools like istanbul
coverage
*.lcov
# Optional npm cache directory
.npm
@@ -77,23 +64,3 @@ dev-debug.log
# NPMRC
.npmrc
# Added by Task Master AI
# Editor directories and files
.idea
.vscode
*.suo
*.ntvs*
*.njsproj
*.sln
*.sw?
# VS Code extension test files
.vscode-test/
apps/extension/.vscode-test/
# apps/extension
apps/extension/vsix-build/
# turbo
.turbo

23
.kiro/hooks/tm-code-change-task-tracker.kiro.hook
View File

@@ -1,23 +0,0 @@
{
"enabled": true,
"name": "[TM] Code Change Task Tracker",
"description": "Track implementation progress by monitoring code changes",
"version": "1",
"when": {
"type": "fileEdited",
"patterns": [
"**/*.{js,ts,jsx,tsx,py,go,rs,java,cpp,c,h,hpp,cs,rb,php,swift,kt,scala,clj}",
"!**/node_modules/**",
"!**/vendor/**",
"!**/.git/**",
"!**/build/**",
"!**/dist/**",
"!**/target/**",
"!**/__pycache__/**"
]
},
"then": {
"type": "askAgent",
"prompt": "I just saved a source code file. Please:\n\n1. Check what task is currently 'in-progress' using 'tm list --status=in-progress'\n2. Look at the file I saved and summarize what was changed (considering the programming language and context)\n3. Update the task's notes with: 'tm update-subtask --id=<task_id> --prompt=\"Implemented: <summary_of_changes> in <file_path>\"'\n4. If the changes seem to complete the task based on its description, ask if I want to mark it as done"
}
}

16
.kiro/hooks/tm-complexity-analyzer.kiro.hook
View File

@@ -1,16 +0,0 @@
{
"enabled": false,
"name": "[TM] Complexity Analyzer",
"description": "Analyze task complexity when new tasks are added",
"version": "1",
"when": {
"type": "fileEdited",
"patterns": [
".taskmaster/tasks/tasks.json"
]
},
"then": {
"type": "askAgent",
"prompt": "New tasks were added to tasks.json. For each new task:\n\n1. Run 'tm analyze-complexity --id=<task_id>'\n2. If complexity score is > 7, automatically expand it: 'tm expand --id=<task_id> --num=5'\n3. Show the complexity analysis results\n4. Suggest task dependencies based on the expanded subtasks"
}
}

13
.kiro/hooks/tm-daily-standup-assistant.kiro.hook
View File

@@ -1,13 +0,0 @@
{
"enabled": true,
"name": "[TM] Daily Standup Assistant",
"description": "Morning workflow summary and task selection",
"version": "1",
"when": {
"type": "userTriggered"
},
"then": {
"type": "askAgent",
"prompt": "Good morning! Please provide my daily standup summary:\n\n1. Run 'tm list --status=done' and show tasks completed in the last 24 hours\n2. Run 'tm list --status=in-progress' to show current work\n3. Run 'tm next' to suggest the highest priority task to start\n4. Show the dependency graph for upcoming work\n5. Ask which task I'd like to focus on today"
}
}

13
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View File

@@ -1,13 +0,0 @@
{
"enabled": true,
"name": "[TM] Git Commit Task Linker",
"description": "Link commits to tasks for traceability",
"version": "1",
"when": {
"type": "manual"
},
"then": {
"type": "askAgent",
"prompt": "I'm about to commit code. Please:\n\n1. Run 'git diff --staged' to see what's being committed\n2. Analyze the changes and suggest which tasks they relate to\n3. Generate a commit message in format: 'feat(task-<id>): <description>'\n4. Update the relevant tasks with a note about this commit\n5. Show the proposed commit message for approval"
}
}

13
.kiro/hooks/tm-pr-readiness-checker.kiro.hook
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@@ -1,13 +0,0 @@
{
"enabled": true,
"name": "[TM] PR Readiness Checker",
"description": "Validate tasks before creating a pull request",
"version": "1",
"when": {
"type": "manual"
},
"then": {
"type": "askAgent",
"prompt": "I'm about to create a PR. Please:\n\n1. List all tasks marked as 'done' in this branch\n2. For each done task, verify:\n - All subtasks are also done\n - Test files exist for new functionality\n - No TODO comments remain related to the task\n3. Generate a PR description listing completed tasks\n4. Suggest a PR title based on the main tasks completed"
}
}

17
.kiro/hooks/tm-task-dependency-auto-progression.kiro.hook
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@@ -1,17 +0,0 @@
{
"enabled": true,
"name": "[TM] Task Dependency Auto-Progression",
"description": "Automatically progress tasks when dependencies are completed",
"version": "1",
"when": {
"type": "fileEdited",
"patterns": [
".taskmaster/tasks/tasks.json",
".taskmaster/tasks/*.json"
]
},
"then": {
"type": "askAgent",
"prompt": "Check the tasks.json file for any tasks that just changed status to 'done'. For each completed task:\n\n1. Find all tasks that depend on it\n2. Check if those dependent tasks now have all their dependencies satisfied\n3. If a task has all dependencies met and is still 'pending', use the command 'tm set-status --id=<task_id> --status=in-progress' to start it\n4. Show me which tasks were auto-started and why"
}
}

23
.kiro/hooks/tm-test-success-task-completer.kiro.hook
View File

@@ -1,23 +0,0 @@
{
"enabled": true,
"name": "[TM] Test Success Task Completer",
"description": "Mark tasks as done when their tests pass",
"version": "1",
"when": {
"type": "fileEdited",
"patterns": [
"**/*test*.{js,ts,jsx,tsx,py,go,java,rb,php,rs,cpp,cs}",
"**/*spec*.{js,ts,jsx,tsx,rb}",
"**/test_*.py",
"**/*_test.go",
"**/*Test.java",
"**/*Tests.cs",
"!**/node_modules/**",
"!**/vendor/**"
]
},
"then": {
"type": "askAgent",
"prompt": "A test file was just saved. Please:\n\n1. Identify the test framework/language and run the appropriate test command for this file (npm test, pytest, go test, cargo test, dotnet test, mvn test, etc.)\n2. If all tests pass, check which tasks mention this functionality\n3. For any matching tasks that are 'in-progress', ask if the passing tests mean the task is complete\n4. If confirmed, mark the task as done with 'tm set-status --id=<task_id> --status=done'"
}
}

19
.kiro/settings/mcp.json
View File

@@ -1,19 +0,0 @@
{
"mcpServers": {
"task-master-ai": {
"command": "npx",
"args": ["-y", "task-master-ai"],
"env": {
"ANTHROPIC_API_KEY": "YOUR_ANTHROPIC_API_KEY_HERE",
"PERPLEXITY_API_KEY": "YOUR_PERPLEXITY_API_KEY_HERE",
"OPENAI_API_KEY": "YOUR_OPENAI_KEY_HERE",
"GOOGLE_API_KEY": "YOUR_GOOGLE_KEY_HERE",
"XAI_API_KEY": "YOUR_XAI_KEY_HERE",
"OPENROUTER_API_KEY": "YOUR_OPENROUTER_KEY_HERE",
"MISTRAL_API_KEY": "YOUR_MISTRAL_KEY_HERE",
"AZURE_OPENAI_API_KEY": "YOUR_AZURE_KEY_HERE",
"OLLAMA_API_KEY": "YOUR_OLLAMA_API_KEY_HERE"
}
}
}
}

422
.kiro/steering/dev_workflow.md
View File

@@ -1,422 +0,0 @@
---
inclusion: always
---
# Taskmaster Development Workflow
This guide outlines the standard process for using Taskmaster to manage software development projects. It is written as a set of instructions for you, the AI agent.
- **Your Default Stance**: For most projects, the user can work directly within the `master` task context. Your initial actions should operate on this default context unless a clear pattern for multi-context work emerges.
- **Your Goal**: Your role is to elevate the user's workflow by intelligently introducing advanced features like **Tagged Task Lists** when you detect the appropriate context. Do not force tags on the user; suggest them as a helpful solution to a specific need.
## The Basic Loop
The fundamental development cycle you will facilitate is:
1. **`list`**: Show the user what needs to be done.
2. **`next`**: Help the user decide what to work on.
3. **`show <id>`**: Provide details for a specific task.
4. **`expand <id>`**: Break down a complex task into smaller, manageable subtasks.
5. **Implement**: The user writes the code and tests.
6. **`update-subtask`**: Log progress and findings on behalf of the user.
7. **`set-status`**: Mark tasks and subtasks as `done` as work is completed.
8. **Repeat**.
All your standard command executions should operate on the user's current task context, which defaults to `master`.
---
## Standard Development Workflow Process
### Simple Workflow (Default Starting Point)
For new projects or when users are getting started, operate within the `master` tag context:
- Start new projects by running `initialize_project` tool / `task-master init` or `parse_prd` / `task-master parse-prd --input='<prd-file.txt>'` (see @`taskmaster.md`) to generate initial tasks.json with tagged structure
- Configure rule sets during initialization with `--rules` flag (e.g., `task-master init --rules kiro,windsurf`) or manage them later with `task-master rules add/remove` commands
- Begin coding sessions with `get_tasks` / `task-master list` (see @`taskmaster.md`) to see current tasks, status, and IDs
- Determine the next task to work on using `next_task` / `task-master next` (see @`taskmaster.md`)
- Analyze task complexity with `analyze_project_complexity` / `task-master analyze-complexity --research` (see @`taskmaster.md`) before breaking down tasks
- Review complexity report using `complexity_report` / `task-master complexity-report` (see @`taskmaster.md`)
- Select tasks based on dependencies (all marked 'done'), priority level, and ID order
- View specific task details using `get_task` / `task-master show <id>` (see @`taskmaster.md`) to understand implementation requirements
- Break down complex tasks using `expand_task` / `task-master expand --id=<id> --force --research` (see @`taskmaster.md`) with appropriate flags like `--force` (to replace existing subtasks) and `--research`
- Implement code following task details, dependencies, and project standards
- Mark completed tasks with `set_task_status` / `task-master set-status --id=<id> --status=done` (see @`taskmaster.md`)
- Update dependent tasks when implementation differs from original plan using `update` / `task-master update --from=<id> --prompt="..."` or `update_task` / `task-master update-task --id=<id> --prompt="..."` (see @`taskmaster.md`)
---
## Leveling Up: Agent-Led Multi-Context Workflows
While the basic workflow is powerful, your primary opportunity to add value is by identifying when to introduce **Tagged Task Lists**. These patterns are your tools for creating a more organized and efficient development environment for the user, especially if you detect agentic or parallel development happening across the same session.
**Critical Principle**: Most users should never see a difference in their experience. Only introduce advanced workflows when you detect clear indicators that the project has evolved beyond simple task management.
### When to Introduce Tags: Your Decision Patterns
Here are the patterns to look for. When you detect one, you should propose the corresponding workflow to the user.
#### Pattern 1: Simple Git Feature Branching
This is the most common and direct use case for tags.
- **Trigger**: The user creates a new git branch (e.g., `git checkout -b feature/user-auth`).
- **Your Action**: Propose creating a new tag that mirrors the branch name to isolate the feature's tasks from `master`.
- **Your Suggested Prompt**: *"I see you've created a new branch named 'feature/user-auth'. To keep all related tasks neatly organized and separate from your main list, I can create a corresponding task tag for you. This helps prevent merge conflicts in your `tasks.json` file later. Shall I create the 'feature-user-auth' tag?"*
- **Tool to Use**: `task-master add-tag --from-branch`
#### Pattern 2: Team Collaboration
- **Trigger**: The user mentions working with teammates (e.g., "My teammate Alice is handling the database schema," or "I need to review Bob's work on the API.").
- **Your Action**: Suggest creating a separate tag for the user's work to prevent conflicts with shared master context.
- **Your Suggested Prompt**: *"Since you're working with Alice, I can create a separate task context for your work to avoid conflicts. This way, Alice can continue working with the master list while you have your own isolated context. When you're ready to merge your work, we can coordinate the tasks back to master. Shall I create a tag for your current work?"*
- **Tool to Use**: `task-master add-tag my-work --copy-from-current --description="My tasks while collaborating with Alice"`
#### Pattern 3: Experiments or Risky Refactors
- **Trigger**: The user wants to try something that might not be kept (e.g., "I want to experiment with switching our state management library," or "Let's refactor the old API module, but I want to keep the current tasks as a reference.").
- **Your Action**: Propose creating a sandboxed tag for the experimental work.
- **Your Suggested Prompt**: *"This sounds like a great experiment. To keep these new tasks separate from our main plan, I can create a temporary 'experiment-zustand' tag for this work. If we decide not to proceed, we can simply delete the tag without affecting the main task list. Sound good?"*
- **Tool to Use**: `task-master add-tag experiment-zustand --description="Exploring Zustand migration"`
#### Pattern 4: Large Feature Initiatives (PRD-Driven)
This is a more structured approach for significant new features or epics.
- **Trigger**: The user describes a large, multi-step feature that would benefit from a formal plan.
- **Your Action**: Propose a comprehensive, PRD-driven workflow.
- **Your Suggested Prompt**: *"This sounds like a significant new feature. To manage this effectively, I suggest we create a dedicated task context for it. Here's the plan: I'll create a new tag called 'feature-xyz', then we can draft a Product Requirements Document (PRD) together to scope the work. Once the PRD is ready, I'll automatically generate all the necessary tasks within that new tag. How does that sound?"*
- **Your Implementation Flow**:
1. **Create an empty tag**: `task-master add-tag feature-xyz --description "Tasks for the new XYZ feature"`. You can also start by creating a git branch if applicable, and then create the tag from that branch.
2. **Collaborate & Create PRD**: Work with the user to create a detailed PRD file (e.g., `.taskmaster/docs/feature-xyz-prd.txt`).
3. **Parse PRD into the new tag**: `task-master parse-prd .taskmaster/docs/feature-xyz-prd.txt --tag feature-xyz`
4. **Prepare the new task list**: Follow up by suggesting `analyze-complexity` and `expand-all` for the newly created tasks within the `feature-xyz` tag.
#### Pattern 5: Version-Based Development
Tailor your approach based on the project maturity indicated by tag names.
- **Prototype/MVP Tags** (`prototype`, `mvp`, `poc`, `v0.x`):
- **Your Approach**: Focus on speed and functionality over perfection
- **Task Generation**: Create tasks that emphasize "get it working" over "get it perfect"
- **Complexity Level**: Lower complexity, fewer subtasks, more direct implementation paths
- **Research Prompts**: Include context like "This is a prototype - prioritize speed and basic functionality over optimization"
- **Example Prompt Addition**: *"Since this is for the MVP, I'll focus on tasks that get core functionality working quickly rather than over-engineering."*
- **Production/Mature Tags** (`v1.0+`, `production`, `stable`):
- **Your Approach**: Emphasize robustness, testing, and maintainability
- **Task Generation**: Include comprehensive error handling, testing, documentation, and optimization
- **Complexity Level**: Higher complexity, more detailed subtasks, thorough implementation paths
- **Research Prompts**: Include context like "This is for production - prioritize reliability, performance, and maintainability"
- **Example Prompt Addition**: *"Since this is for production, I'll ensure tasks include proper error handling, testing, and documentation."*
### Advanced Workflow (Tag-Based & PRD-Driven)
**When to Transition**: Recognize when the project has evolved (or has initiated a project which existing code) beyond simple task management. Look for these indicators:
- User mentions teammates or collaboration needs
- Project has grown to 15+ tasks with mixed priorities
- User creates feature branches or mentions major initiatives
- User initializes Taskmaster on an existing, complex codebase
- User describes large features that would benefit from dedicated planning
**Your Role in Transition**: Guide the user to a more sophisticated workflow that leverages tags for organization and PRDs for comprehensive planning.
#### Master List Strategy (High-Value Focus)
Once you transition to tag-based workflows, the `master` tag should ideally contain only:
- **High-level deliverables** that provide significant business value
- **Major milestones** and epic-level features
- **Critical infrastructure** work that affects the entire project
- **Release-blocking** items
**What NOT to put in master**:
- Detailed implementation subtasks (these go in feature-specific tags' parent tasks)
- Refactoring work (create dedicated tags like `refactor-auth`)
- Experimental features (use `experiment-*` tags)
- Team member-specific tasks (use person-specific tags)
#### PRD-Driven Feature Development
**For New Major Features**:
1. **Identify the Initiative**: When user describes a significant feature
2. **Create Dedicated Tag**: `add_tag feature-[name] --description="[Feature description]"`
3. **Collaborative PRD Creation**: Work with user to create comprehensive PRD in `.taskmaster/docs/feature-[name]-prd.txt`
4. **Parse & Prepare**:
- `parse_prd .taskmaster/docs/feature-[name]-prd.txt --tag=feature-[name]`
- `analyze_project_complexity --tag=feature-[name] --research`
- `expand_all --tag=feature-[name] --research`
5. **Add Master Reference**: Create a high-level task in `master` that references the feature tag
**For Existing Codebase Analysis**:
When users initialize Taskmaster on existing projects:
1. **Codebase Discovery**: Use your native tools for producing deep context about the code base. You may use `research` tool with `--tree` and `--files` to collect up to date information using the existing architecture as context.
2. **Collaborative Assessment**: Work with user to identify improvement areas, technical debt, or new features
3. **Strategic PRD Creation**: Co-author PRDs that include:
- Current state analysis (based on your codebase research)
- Proposed improvements or new features
- Implementation strategy considering existing code
4. **Tag-Based Organization**: Parse PRDs into appropriate tags (`refactor-api`, `feature-dashboard`, `tech-debt`, etc.)
5. **Master List Curation**: Keep only the most valuable initiatives in master
The parse-prd's `--append` flag enables the user to parse multiple PRDs within tags or across tags. PRDs should be focused and the number of tasks they are parsed into should be strategically chosen relative to the PRD's complexity and level of detail.
### Workflow Transition Examples
**Example 1: Simple → Team-Based**
```
User: "Alice is going to help with the API work"
Your Response: "Great! To avoid conflicts, I'll create a separate task context for your work. Alice can continue with the master list while you work in your own context. When you're ready to merge, we can coordinate the tasks back together."
Action: add_tag my-api-work --copy-from-current --description="My API tasks while collaborating with Alice"
```
**Example 2: Simple → PRD-Driven**
```
User: "I want to add a complete user dashboard with analytics, user management, and reporting"
Your Response: "This sounds like a major feature that would benefit from detailed planning. Let me create a dedicated context for this work and we can draft a PRD together to ensure we capture all requirements."
Actions:
1. add_tag feature-dashboard --description="User dashboard with analytics and management"
2. Collaborate on PRD creation
3. parse_prd dashboard-prd.txt --tag=feature-dashboard
4. Add high-level "User Dashboard" task to master
```
**Example 3: Existing Project → Strategic Planning**
```
User: "I just initialized Taskmaster on my existing React app. It's getting messy and I want to improve it."
Your Response: "Let me research your codebase to understand the current architecture, then we can create a strategic plan for improvements."
Actions:
1. research "Current React app architecture and improvement opportunities" --tree --files=src/
2. Collaborate on improvement PRD based on findings
3. Create tags for different improvement areas (refactor-components, improve-state-management, etc.)
4. Keep only major improvement initiatives in master
```
---
## Primary Interaction: MCP Server vs. CLI
Taskmaster offers two primary ways to interact:
1. **MCP Server (Recommended for Integrated Tools)**:
- For AI agents and integrated development environments (like Kiro), interacting via the **MCP server is the preferred method**.
- The MCP server exposes Taskmaster functionality through a set of tools (e.g., `get_tasks`, `add_subtask`).
- This method offers better performance, structured data exchange, and richer error handling compared to CLI parsing.
- Refer to @`mcp.md` for details on the MCP architecture and available tools.
- A comprehensive list and description of MCP tools and their corresponding CLI commands can be found in @`taskmaster.md`.
- **Restart the MCP server** if core logic in `scripts/modules` or MCP tool/direct function definitions change.
- **Note**: MCP tools fully support tagged task lists with complete tag management capabilities.
2. **`task-master` CLI (For Users & Fallback)**:
- The global `task-master` command provides a user-friendly interface for direct terminal interaction.
- It can also serve as a fallback if the MCP server is inaccessible or a specific function isn't exposed via MCP.
- Install globally with `npm install -g task-master-ai` or use locally via `npx task-master-ai ...`.
- The CLI commands often mirror the MCP tools (e.g., `task-master list` corresponds to `get_tasks`).
- Refer to @`taskmaster.md` for a detailed command reference.
- **Tagged Task Lists**: CLI fully supports the new tagged system with seamless migration.
## How the Tag System Works (For Your Reference)
- **Data Structure**: Tasks are organized into separate contexts (tags) like "master", "feature-branch", or "v2.0".
- **Silent Migration**: Existing projects automatically migrate to use a "master" tag with zero disruption.
- **Context Isolation**: Tasks in different tags are completely separate. Changes in one tag do not affect any other tag.
- **Manual Control**: The user is always in control. There is no automatic switching. You facilitate switching by using `use-tag <name>`.
- **Full CLI & MCP Support**: All tag management commands are available through both the CLI and MCP tools for you to use. Refer to @`taskmaster.md` for a full command list.
---
## Task Complexity Analysis
- Run `analyze_project_complexity` / `task-master analyze-complexity --research` (see @`taskmaster.md`) for comprehensive analysis
- Review complexity report via `complexity_report` / `task-master complexity-report` (see @`taskmaster.md`) for a formatted, readable version.
- Focus on tasks with highest complexity scores (8-10) for detailed breakdown
- Use analysis results to determine appropriate subtask allocation
- Note that reports are automatically used by the `expand_task` tool/command
## Task Breakdown Process
- Use `expand_task` / `task-master expand --id=<id>`. It automatically uses the complexity report if found, otherwise generates default number of subtasks.
- Use `--num=<number>` to specify an explicit number of subtasks, overriding defaults or complexity report recommendations.
- Add `--research` flag to leverage Perplexity AI for research-backed expansion.
- Add `--force` flag to clear existing subtasks before generating new ones (default is to append).
- Use `--prompt="<context>"` to provide additional context when needed.
- Review and adjust generated subtasks as necessary.
- Use `expand_all` tool or `task-master expand --all` to expand multiple pending tasks at once, respecting flags like `--force` and `--research`.
- If subtasks need complete replacement (regardless of the `--force` flag on `expand`), clear them first with `clear_subtasks` / `task-master clear-subtasks --id=<id>`.
## Implementation Drift Handling
- When implementation differs significantly from planned approach
- When future tasks need modification due to current implementation choices
- When new dependencies or requirements emerge
- Use `update` / `task-master update --from=<futureTaskId> --prompt='<explanation>\nUpdate context...' --research` to update multiple future tasks.
- Use `update_task` / `task-master update-task --id=<taskId> --prompt='<explanation>\nUpdate context...' --research` to update a single specific task.
## Task Status Management
- Use 'pending' for tasks ready to be worked on
- Use 'done' for completed and verified tasks
- Use 'deferred' for postponed tasks
- Add custom status values as needed for project-specific workflows
## Task Structure Fields
- **id**: Unique identifier for the task (Example: `1`, `1.1`)
- **title**: Brief, descriptive title (Example: `"Initialize Repo"`)
- **description**: Concise summary of what the task involves (Example: `"Create a new repository, set up initial structure."`)
- **status**: Current state of the task (Example: `"pending"`, `"done"`, `"deferred"`)
- **dependencies**: IDs of prerequisite tasks (Example: `[1, 2.1]`)
- Dependencies are displayed with status indicators (✅ for completed, ⏱️ for pending)
- This helps quickly identify which prerequisite tasks are blocking work
- **priority**: Importance level (Example: `"high"`, `"medium"`, `"low"`)
- **details**: In-depth implementation instructions (Example: `"Use GitHub client ID/secret, handle callback, set session token."`)
- **testStrategy**: Verification approach (Example: `"Deploy and call endpoint to confirm 'Hello World' response."`)
- **subtasks**: List of smaller, more specific tasks (Example: `[{"id": 1, "title": "Configure OAuth", ...}]`)
- Refer to task structure details (previously linked to `tasks.md`).
## Configuration Management (Updated)
Taskmaster configuration is managed through two main mechanisms:
1. **`.taskmaster/config.json` File (Primary):**
* Located in the project root directory.
* Stores most configuration settings: AI model selections (main, research, fallback), parameters (max tokens, temperature), logging level, default subtasks/priority, project name, etc.
* **Tagged System Settings**: Includes `global.defaultTag` (defaults to "master") and `tags` section for tag management configuration.
* **Managed via `task-master models --setup` command.** Do not edit manually unless you know what you are doing.
* **View/Set specific models via `task-master models` command or `models` MCP tool.**
* Created automatically when you run `task-master models --setup` for the first time or during tagged system migration.
2. **Environment Variables (`.env` / `mcp.json`):**
* Used **only** for sensitive API keys and specific endpoint URLs.
* Place API keys (one per provider) in a `.env` file in the project root for CLI usage.
* For MCP/Kiro integration, configure these keys in the `env` section of `.kiro/mcp.json`.
* Available keys/variables: See `assets/env.example` or the Configuration section in the command reference (previously linked to `taskmaster.md`).
3. **`.taskmaster/state.json` File (Tagged System State):**
* Tracks current tag context and migration status.
* Automatically created during tagged system migration.
* Contains: `currentTag`, `lastSwitched`, `migrationNoticeShown`.
**Important:** Non-API key settings (like model selections, `MAX_TOKENS`, `TASKMASTER_LOG_LEVEL`) are **no longer configured via environment variables**. Use the `task-master models` command (or `--setup` for interactive configuration) or the `models` MCP tool.
**If AI commands FAIL in MCP** verify that the API key for the selected provider is present in the `env` section of `.kiro/mcp.json`.
**If AI commands FAIL in CLI** verify that the API key for the selected provider is present in the `.env` file in the root of the project.
## Rules Management
Taskmaster supports multiple AI coding assistant rule sets that can be configured during project initialization or managed afterward:
- **Available Profiles**: Claude Code, Cline, Codex, Kiro, Roo Code, Trae, Windsurf (claude, cline, codex, kiro, roo, trae, windsurf)
- **During Initialization**: Use `task-master init --rules kiro,windsurf` to specify which rule sets to include
- **After Initialization**: Use `task-master rules add <profiles>` or `task-master rules remove <profiles>` to manage rule sets
- **Interactive Setup**: Use `task-master rules setup` to launch an interactive prompt for selecting rule profiles
- **Default Behavior**: If no `--rules` flag is specified during initialization, all available rule profiles are included
- **Rule Structure**: Each profile creates its own directory (e.g., `.kiro/steering`, `.roo/rules`) with appropriate configuration files
## Determining the Next Task
- Run `next_task` / `task-master next` to show the next task to work on.
- The command identifies tasks with all dependencies satisfied
- Tasks are prioritized by priority level, dependency count, and ID
- The command shows comprehensive task information including:
- Basic task details and description
- Implementation details
- Subtasks (if they exist)
- Contextual suggested actions
- Recommended before starting any new development work
- Respects your project's dependency structure
- Ensures tasks are completed in the appropriate sequence
- Provides ready-to-use commands for common task actions
## Viewing Specific Task Details
- Run `get_task` / `task-master show <id>` to view a specific task.
- Use dot notation for subtasks: `task-master show 1.2` (shows subtask 2 of task 1)
- Displays comprehensive information similar to the next command, but for a specific task
- For parent tasks, shows all subtasks and their current status
- For subtasks, shows parent task information and relationship
- Provides contextual suggested actions appropriate for the specific task
- Useful for examining task details before implementation or checking status
## Managing Task Dependencies
- Use `add_dependency` / `task-master add-dependency --id=<id> --depends-on=<id>` to add a dependency.
- Use `remove_dependency` / `task-master remove-dependency --id=<id> --depends-on=<id>` to remove a dependency.
- The system prevents circular dependencies and duplicate dependency entries
- Dependencies are checked for existence before being added or removed
- Task files are automatically regenerated after dependency changes
- Dependencies are visualized with status indicators in task listings and files
## Task Reorganization
- Use `move_task` / `task-master move --from=<id> --to=<id>` to move tasks or subtasks within the hierarchy
- This command supports several use cases:
- Moving a standalone task to become a subtask (e.g., `--from=5 --to=7`)
- Moving a subtask to become a standalone task (e.g., `--from=5.2 --to=7`)
- Moving a subtask to a different parent (e.g., `--from=5.2 --to=7.3`)
- Reordering subtasks within the same parent (e.g., `--from=5.2 --to=5.4`)
- Moving a task to a new, non-existent ID position (e.g., `--from=5 --to=25`)
- Moving multiple tasks at once using comma-separated IDs (e.g., `--from=10,11,12 --to=16,17,18`)
- The system includes validation to prevent data loss:
- Allows moving to non-existent IDs by creating placeholder tasks
- Prevents moving to existing task IDs that have content (to avoid overwriting)
- Validates source tasks exist before attempting to move them
- The system maintains proper parent-child relationships and dependency integrity
- Task files are automatically regenerated after the move operation
- This provides greater flexibility in organizing and refining your task structure as project understanding evolves
- This is especially useful when dealing with potential merge conflicts arising from teams creating tasks on separate branches. Solve these conflicts very easily by moving your tasks and keeping theirs.
## Iterative Subtask Implementation
Once a task has been broken down into subtasks using `expand_task` or similar methods, follow this iterative process for implementation:
1. **Understand the Goal (Preparation):**
* Use `get_task` / `task-master show <subtaskId>` (see @`taskmaster.md`) to thoroughly understand the specific goals and requirements of the subtask.
2. **Initial Exploration & Planning (Iteration 1):**
* This is the first attempt at creating a concrete implementation plan.
* Explore the codebase to identify the precise files, functions, and even specific lines of code that will need modification.
* Determine the intended code changes (diffs) and their locations.
* Gather *all* relevant details from this exploration phase.
3. **Log the Plan:**
* Run `update_subtask` / `task-master update-subtask --id=<subtaskId> --prompt='<detailed plan>'`.
* Provide the *complete and detailed* findings from the exploration phase in the prompt. Include file paths, line numbers, proposed diffs, reasoning, and any potential challenges identified. Do not omit details. The goal is to create a rich, timestamped log within the subtask's `details`.
4. **Verify the Plan:**
* Run `get_task` / `task-master show <subtaskId>` again to confirm that the detailed implementation plan has been successfully appended to the subtask's details.
5. **Begin Implementation:**
* Set the subtask status using `set_task_status` / `task-master set-status --id=<subtaskId> --status=in-progress`.
* Start coding based on the logged plan.
6. **Refine and Log Progress (Iteration 2+):**
* As implementation progresses, you will encounter challenges, discover nuances, or confirm successful approaches.
* **Before appending new information**: Briefly review the *existing* details logged in the subtask (using `get_task` or recalling from context) to ensure the update adds fresh insights and avoids redundancy.
* **Regularly** use `update_subtask` / `task-master update-subtask --id=<subtaskId> --prompt='<update details>\n- What worked...\n- What didn't work...'` to append new findings.
* **Crucially, log:**
* What worked ("fundamental truths" discovered).
* What didn't work and why (to avoid repeating mistakes).
* Specific code snippets or configurations that were successful.
* Decisions made, especially if confirmed with user input.
* Any deviations from the initial plan and the reasoning.
* The objective is to continuously enrich the subtask's details, creating a log of the implementation journey that helps the AI (and human developers) learn, adapt, and avoid repeating errors.
7. **Review & Update Rules (Post-Implementation):**
* Once the implementation for the subtask is functionally complete, review all code changes and the relevant chat history.
* Identify any new or modified code patterns, conventions, or best practices established during the implementation.
* Create new or update existing rules following internal guidelines (previously linked to `cursor_rules.md` and `self_improve.md`).
8. **Mark Task Complete:**
* After verifying the implementation and updating any necessary rules, mark the subtask as completed: `set_task_status` / `task-master set-status --id=<subtaskId> --status=done`.
9. **Commit Changes (If using Git):**
* Stage the relevant code changes and any updated/new rule files (`git add .`).
* Craft a comprehensive Git commit message summarizing the work done for the subtask, including both code implementation and any rule adjustments.
* Execute the commit command directly in the terminal (e.g., `git commit -m 'feat(module): Implement feature X for subtask <subtaskId>\n\n- Details about changes...\n- Updated rule Y for pattern Z'`).
* Consider if a Changeset is needed according to internal versioning guidelines (previously linked to `changeset.md`). If so, run `npm run changeset`, stage the generated file, and amend the commit or create a new one.
10. **Proceed to Next Subtask:**
* Identify the next subtask (e.g., using `next_task` / `task-master next`).
## Code Analysis & Refactoring Techniques
- **Top-Level Function Search**:
- Useful for understanding module structure or planning refactors.
- Use grep/ripgrep to find exported functions/constants:
`rg "export (async function|function|const) \w+"` or similar patterns.
- Can help compare functions between files during migrations or identify potential naming conflicts.
---
*This workflow provides a general guideline. Adapt it based on your specific project needs and team practices.*

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---
inclusion: always
---
- **Required Rule Structure:**
```markdown
---
description: Clear, one-line description of what the rule enforces
globs: path/to/files/*.ext, other/path/**/*
alwaysApply: boolean
---
- **Main Points in Bold**
- Sub-points with details
- Examples and explanations
```
- **File References:**
- Use `[filename](mdc:path/to/file)` ([filename](mdc:filename)) to reference files
- Example: [prisma.md](.kiro/steering/prisma.md) for rule references
- Example: [schema.prisma](mdc:prisma/schema.prisma) for code references
- **Code Examples:**
- Use language-specific code blocks
```typescript
// ✅ DO: Show good examples
const goodExample = true;
// ❌ DON'T: Show anti-patterns
const badExample = false;
```
- **Rule Content Guidelines:**
- Start with high-level overview
- Include specific, actionable requirements
- Show examples of correct implementation
- Reference existing code when possible
- Keep rules DRY by referencing other rules
- **Rule Maintenance:**
- Update rules when new patterns emerge
- Add examples from actual codebase
- Remove outdated patterns
- Cross-reference related rules
- **Best Practices:**
- Use bullet points for clarity
- Keep descriptions concise
- Include both DO and DON'T examples
- Reference actual code over theoretical examples
- Use consistent formatting across rules

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---
inclusion: always
---
- **Rule Improvement Triggers:**
- New code patterns not covered by existing rules
- Repeated similar implementations across files
- Common error patterns that could be prevented
- New libraries or tools being used consistently
- Emerging best practices in the codebase
- **Analysis Process:**
- Compare new code with existing rules
- Identify patterns that should be standardized
- Look for references to external documentation
- Check for consistent error handling patterns
- Monitor test patterns and coverage
- **Rule Updates:**
- **Add New Rules When:**
- A new technology/pattern is used in 3+ files
- Common bugs could be prevented by a rule
- Code reviews repeatedly mention the same feedback
- New security or performance patterns emerge
- **Modify Existing Rules When:**
- Better examples exist in the codebase
- Additional edge cases are discovered
- Related rules have been updated
- Implementation details have changed
- **Example Pattern Recognition:**
```typescript
// If you see repeated patterns like:
const data = await prisma.user.findMany({
select: { id: true, email: true },
where: { status: 'ACTIVE' }
});
// Consider adding to [prisma.md](.kiro/steering/prisma.md):
// - Standard select fields
// - Common where conditions
// - Performance optimization patterns
```
- **Rule Quality Checks:**
- Rules should be actionable and specific
- Examples should come from actual code
- References should be up to date
- Patterns should be consistently enforced
- **Continuous Improvement:**
- Monitor code review comments
- Track common development questions
- Update rules after major refactors
- Add links to relevant documentation
- Cross-reference related rules
- **Rule Deprecation:**
- Mark outdated patterns as deprecated
- Remove rules that no longer apply
- Update references to deprecated rules
- Document migration paths for old patterns
- **Documentation Updates:**
- Keep examples synchronized with code
- Update references to external docs
- Maintain links between related rules
- Document breaking changes
Follow [kiro_rules.md](.kiro/steering/kiro_rules.md) for proper rule formatting and structure.

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---
inclusion: always
---
# Taskmaster Tool & Command Reference
This document provides a detailed reference for interacting with Taskmaster, covering both the recommended MCP tools, suitable for integrations like Kiro, and the corresponding `task-master` CLI commands, designed for direct user interaction or fallback.
**Note:** For interacting with Taskmaster programmatically or via integrated tools, using the **MCP tools is strongly recommended** due to better performance, structured data, and error handling. The CLI commands serve as a user-friendly alternative and fallback.
**Important:** Several MCP tools involve AI processing... The AI-powered tools include `parse_prd`, `analyze_project_complexity`, `update_subtask`, `update_task`, `update`, `expand_all`, `expand_task`, and `add_task`.
**🏷️ Tagged Task Lists System:** Task Master now supports **tagged task lists** for multi-context task management. This allows you to maintain separate, isolated lists of tasks for different features, branches, or experiments. Existing projects are seamlessly migrated to use a default "master" tag. Most commands now support a `--tag <name>` flag to specify which context to operate on. If omitted, commands use the currently active tag.
---
## Initialization & Setup
### 1. Initialize Project (`init`)
* **MCP Tool:** `initialize_project`
* **CLI Command:** `task-master init [options]`
* **Description:** `Set up the basic Taskmaster file structure and configuration in the current directory for a new project.`
* **Key CLI Options:**
* `--name <name>`: `Set the name for your project in Taskmaster's configuration.`
* `--description <text>`: `Provide a brief description for your project.`
* `--version <version>`: `Set the initial version for your project, e.g., '0.1.0'.`
* `-y, --yes`: `Initialize Taskmaster quickly using default settings without interactive prompts.`
* **Usage:** Run this once at the beginning of a new project.
* **MCP Variant Description:** `Set up the basic Taskmaster file structure and configuration in the current directory for a new project by running the 'task-master init' command.`
* **Key MCP Parameters/Options:**
* `projectName`: `Set the name for your project.` (CLI: `--name <name>`)
* `projectDescription`: `Provide a brief description for your project.` (CLI: `--description <text>`)
* `projectVersion`: `Set the initial version for your project, e.g., '0.1.0'.` (CLI: `--version <version>`)
* `authorName`: `Author name.` (CLI: `--author <author>`)
* `skipInstall`: `Skip installing dependencies. Default is false.` (CLI: `--skip-install`)
* `addAliases`: `Add shell aliases tm and taskmaster. Default is false.` (CLI: `--aliases`)
* `yes`: `Skip prompts and use defaults/provided arguments. Default is false.` (CLI: `-y, --yes`)
* **Usage:** Run this once at the beginning of a new project, typically via an integrated tool like Kiro. Operates on the current working directory of the MCP server.
* **Important:** Once complete, you *MUST* parse a prd in order to generate tasks. There will be no tasks files until then. The next step after initializing should be to create a PRD using the example PRD in .taskmaster/templates/example_prd.txt.
* **Tagging:** Use the `--tag` option to parse the PRD into a specific, non-default tag context. If the tag doesn't exist, it will be created automatically. Example: `task-master parse-prd spec.txt --tag=new-feature`.
### 2. Parse PRD (`parse_prd`)
* **MCP Tool:** `parse_prd`
* **CLI Command:** `task-master parse-prd [file] [options]`
* **Description:** `Parse a Product Requirements Document, PRD, or text file with Taskmaster to automatically generate an initial set of tasks in tasks.json.`
* **Key Parameters/Options:**
* `input`: `Path to your PRD or requirements text file that Taskmaster should parse for tasks.` (CLI: `[file]` positional or `-i, --input <file>`)
* `output`: `Specify where Taskmaster should save the generated 'tasks.json' file. Defaults to '.taskmaster/tasks/tasks.json'.` (CLI: `-o, --output <file>`)
* `numTasks`: `Approximate number of top-level tasks Taskmaster should aim to generate from the document.` (CLI: `-n, --num-tasks <number>`)
* `force`: `Use this to allow Taskmaster to overwrite an existing 'tasks.json' without asking for confirmation.` (CLI: `-f, --force`)
* **Usage:** Useful for bootstrapping a project from an existing requirements document.
* **Notes:** Task Master will strictly adhere to any specific requirements mentioned in the PRD, such as libraries, database schemas, frameworks, tech stacks, etc., while filling in any gaps where the PRD isn't fully specified. Tasks are designed to provide the most direct implementation path while avoiding over-engineering.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress. If the user does not have a PRD, suggest discussing their idea and then use the example PRD in `.taskmaster/templates/example_prd.txt` as a template for creating the PRD based on their idea, for use with `parse-prd`.
---
## AI Model Configuration
### 2. Manage Models (`models`)
* **MCP Tool:** `models`
* **CLI Command:** `task-master models [options]`
* **Description:** `View the current AI model configuration or set specific models for different roles (main, research, fallback). Allows setting custom model IDs for Ollama and OpenRouter.`
* **Key MCP Parameters/Options:**
* `setMain <model_id>`: `Set the primary model ID for task generation/updates.` (CLI: `--set-main <model_id>`)
* `setResearch <model_id>`: `Set the model ID for research-backed operations.` (CLI: `--set-research <model_id>`)
* `setFallback <model_id>`: `Set the model ID to use if the primary fails.` (CLI: `--set-fallback <model_id>`)
* `ollama <boolean>`: `Indicates the set model ID is a custom Ollama model.` (CLI: `--ollama`)
* `openrouter <boolean>`: `Indicates the set model ID is a custom OpenRouter model.` (CLI: `--openrouter`)
* `listAvailableModels <boolean>`: `If true, lists available models not currently assigned to a role.` (CLI: No direct equivalent; CLI lists available automatically)
* `projectRoot <string>`: `Optional. Absolute path to the project root directory.` (CLI: Determined automatically)
* **Key CLI Options:**
* `--set-main <model_id>`: `Set the primary model.`
* `--set-research <model_id>`: `Set the research model.`
* `--set-fallback <model_id>`: `Set the fallback model.`
* `--ollama`: `Specify that the provided model ID is for Ollama (use with --set-*).`
* `--openrouter`: `Specify that the provided model ID is for OpenRouter (use with --set-*). Validates against OpenRouter API.`
* `--bedrock`: `Specify that the provided model ID is for AWS Bedrock (use with --set-*).`
* `--setup`: `Run interactive setup to configure models, including custom Ollama/OpenRouter IDs.`
* **Usage (MCP):** Call without set flags to get current config. Use `setMain`, `setResearch`, or `setFallback` with a valid model ID to update the configuration. Use `listAvailableModels: true` to get a list of unassigned models. To set a custom model, provide the model ID and set `ollama: true` or `openrouter: true`.
* **Usage (CLI):** Run without flags to view current configuration and available models. Use set flags to update specific roles. Use `--setup` for guided configuration, including custom models. To set a custom model via flags, use `--set-<role>=<model_id>` along with either `--ollama` or `--openrouter`.
* **Notes:** Configuration is stored in `.taskmaster/config.json` in the project root. This command/tool modifies that file. Use `listAvailableModels` or `task-master models` to see internally supported models. OpenRouter custom models are validated against their live API. Ollama custom models are not validated live.
* **API note:** API keys for selected AI providers (based on their model) need to exist in the mcp.json file to be accessible in MCP context. The API keys must be present in the local .env file for the CLI to be able to read them.
* **Model costs:** The costs in supported models are expressed in dollars. An input/output value of 3 is $3.00. A value of 0.8 is $0.80.
* **Warning:** DO NOT MANUALLY EDIT THE .taskmaster/config.json FILE. Use the included commands either in the MCP or CLI format as needed. Always prioritize MCP tools when available and use the CLI as a fallback.
---
## Task Listing & Viewing
### 3. Get Tasks (`get_tasks`)
* **MCP Tool:** `get_tasks`
* **CLI Command:** `task-master list [options]`
* **Description:** `List your Taskmaster tasks, optionally filtering by status and showing subtasks.`
* **Key Parameters/Options:**
* `status`: `Show only Taskmaster tasks matching this status (or multiple statuses, comma-separated), e.g., 'pending' or 'done,in-progress'.` (CLI: `-s, --status <status>`)
* `withSubtasks`: `Include subtasks indented under their parent tasks in the list.` (CLI: `--with-subtasks`)
* `tag`: `Specify which tag context to list tasks from. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Get an overview of the project status, often used at the start of a work session.
### 4. Get Next Task (`next_task`)
* **MCP Tool:** `next_task`
* **CLI Command:** `task-master next [options]`
* **Description:** `Ask Taskmaster to show the next available task you can work on, based on status and completed dependencies.`
* **Key Parameters/Options:**
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* `tag`: `Specify which tag context to use. Defaults to the current active tag.` (CLI: `--tag <name>`)
* **Usage:** Identify what to work on next according to the plan.
### 5. Get Task Details (`get_task`)
* **MCP Tool:** `get_task`
* **CLI Command:** `task-master show [id] [options]`
* **Description:** `Display detailed information for one or more specific Taskmaster tasks or subtasks by ID.`
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task (e.g., '15'), subtask (e.g., '15.2'), or a comma-separated list of IDs ('1,5,10.2') you want to view.` (CLI: `[id]` positional or `-i, --id <id>`)
* `tag`: `Specify which tag context to get the task(s) from. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Understand the full details for a specific task. When multiple IDs are provided, a summary table is shown.
* **CRITICAL INFORMATION** If you need to collect information from multiple tasks, use comma-separated IDs (i.e. 1,2,3) to receive an array of tasks. Do not needlessly get tasks one at a time if you need to get many as that is wasteful.
---
## Task Creation & Modification
### 6. Add Task (`add_task`)
* **MCP Tool:** `add_task`
* **CLI Command:** `task-master add-task [options]`
* **Description:** `Add a new task to Taskmaster by describing it; AI will structure it.`
* **Key Parameters/Options:**
* `prompt`: `Required. Describe the new task you want Taskmaster to create, e.g., "Implement user authentication using JWT".` (CLI: `-p, --prompt <text>`)
* `dependencies`: `Specify the IDs of any Taskmaster tasks that must be completed before this new one can start, e.g., '12,14'.` (CLI: `-d, --dependencies <ids>`)
* `priority`: `Set the priority for the new task: 'high', 'medium', or 'low'. Default is 'medium'.` (CLI: `--priority <priority>`)
* `research`: `Enable Taskmaster to use the research role for potentially more informed task creation.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context to add the task to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Quickly add newly identified tasks during development.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 7. Add Subtask (`add_subtask`)
* **MCP Tool:** `add_subtask`
* **CLI Command:** `task-master add-subtask [options]`
* **Description:** `Add a new subtask to a Taskmaster parent task, or convert an existing task into a subtask.`
* **Key Parameters/Options:**
* `id` / `parent`: `Required. The ID of the Taskmaster task that will be the parent.` (MCP: `id`, CLI: `-p, --parent <id>`)
* `taskId`: `Use this if you want to convert an existing top-level Taskmaster task into a subtask of the specified parent.` (CLI: `-i, --task-id <id>`)
* `title`: `Required if not using taskId. The title for the new subtask Taskmaster should create.` (CLI: `-t, --title <title>`)
* `description`: `A brief description for the new subtask.` (CLI: `-d, --description <text>`)
* `details`: `Provide implementation notes or details for the new subtask.` (CLI: `--details <text>`)
* `dependencies`: `Specify IDs of other tasks or subtasks, e.g., '15' or '16.1', that must be done before this new subtask.` (CLI: `--dependencies <ids>`)
* `status`: `Set the initial status for the new subtask. Default is 'pending'.` (CLI: `-s, --status <status>`)
* `generate`: `Enable Taskmaster to regenerate markdown task files after adding the subtask.` (CLI: `--generate`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Break down tasks manually or reorganize existing tasks.
### 8. Update Tasks (`update`)
* **MCP Tool:** `update`
* **CLI Command:** `task-master update [options]`
* **Description:** `Update multiple upcoming tasks in Taskmaster based on new context or changes, starting from a specific task ID.`
* **Key Parameters/Options:**
* `from`: `Required. The ID of the first task Taskmaster should update. All tasks with this ID or higher that are not 'done' will be considered.` (CLI: `--from <id>`)
* `prompt`: `Required. Explain the change or new context for Taskmaster to apply to the tasks, e.g., "We are now using React Query instead of Redux Toolkit for data fetching".` (CLI: `-p, --prompt <text>`)
* `research`: `Enable Taskmaster to use the research role for more informed updates. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Handle significant implementation changes or pivots that affect multiple future tasks. Example CLI: `task-master update --from='18' --prompt='Switching to React Query.\nNeed to refactor data fetching...'`
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 9. Update Task (`update_task`)
* **MCP Tool:** `update_task`
* **CLI Command:** `task-master update-task [options]`
* **Description:** `Modify a specific Taskmaster task by ID, incorporating new information or changes. By default, this replaces the existing task details.`
* **Key Parameters/Options:**
* `id`: `Required. The specific ID of the Taskmaster task, e.g., '15', you want to update.` (CLI: `-i, --id <id>`)
* `prompt`: `Required. Explain the specific changes or provide the new information Taskmaster should incorporate into this task.` (CLI: `-p, --prompt <text>`)
* `append`: `If true, appends the prompt content to the task's details with a timestamp, rather than replacing them. Behaves like update-subtask.` (CLI: `--append`)
* `research`: `Enable Taskmaster to use the research role for more informed updates. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context the task belongs to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Refine a specific task based on new understanding. Use `--append` to log progress without creating subtasks.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 10. Update Subtask (`update_subtask`)
* **MCP Tool:** `update_subtask`
* **CLI Command:** `task-master update-subtask [options]`
* **Description:** `Append timestamped notes or details to a specific Taskmaster subtask without overwriting existing content. Intended for iterative implementation logging.`
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster subtask, e.g., '5.2', to update with new information.` (CLI: `-i, --id <id>`)
* `prompt`: `Required. The information, findings, or progress notes to append to the subtask's details with a timestamp.` (CLI: `-p, --prompt <text>`)
* `research`: `Enable Taskmaster to use the research role for more informed updates. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context the subtask belongs to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Log implementation progress, findings, and discoveries during subtask development. Each update is timestamped and appended to preserve the implementation journey.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 11. Set Task Status (`set_task_status`)
* **MCP Tool:** `set_task_status`
* **CLI Command:** `task-master set-status [options]`
* **Description:** `Update the status of one or more Taskmaster tasks or subtasks, e.g., 'pending', 'in-progress', 'done'.`
* **Key Parameters/Options:**
* `id`: `Required. The ID(s) of the Taskmaster task(s) or subtask(s), e.g., '15', '15.2', or '16,17.1', to update.` (CLI: `-i, --id <id>`)
* `status`: `Required. The new status to set, e.g., 'done', 'pending', 'in-progress', 'review', 'cancelled'.` (CLI: `-s, --status <status>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Mark progress as tasks move through the development cycle.
### 12. Remove Task (`remove_task`)
* **MCP Tool:** `remove_task`
* **CLI Command:** `task-master remove-task [options]`
* **Description:** `Permanently remove a task or subtask from the Taskmaster tasks list.`
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task, e.g., '5', or subtask, e.g., '5.2', to permanently remove.` (CLI: `-i, --id <id>`)
* `yes`: `Skip the confirmation prompt and immediately delete the task.` (CLI: `-y, --yes`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Permanently delete tasks or subtasks that are no longer needed in the project.
* **Notes:** Use with caution as this operation cannot be undone. Consider using 'blocked', 'cancelled', or 'deferred' status instead if you just want to exclude a task from active planning but keep it for reference. The command automatically cleans up dependency references in other tasks.
---
## Task Structure & Breakdown
### 13. Expand Task (`expand_task`)
* **MCP Tool:** `expand_task`
* **CLI Command:** `task-master expand [options]`
* **Description:** `Use Taskmaster's AI to break down a complex task into smaller, manageable subtasks. Appends subtasks by default.`
* **Key Parameters/Options:**
* `id`: `The ID of the specific Taskmaster task you want to break down into subtasks.` (CLI: `-i, --id <id>`)
* `num`: `Optional: Suggests how many subtasks Taskmaster should aim to create. Uses complexity analysis/defaults otherwise.` (CLI: `-n, --num <number>`)
* `research`: `Enable Taskmaster to use the research role for more informed subtask generation. Requires appropriate API key.` (CLI: `-r, --research`)
* `prompt`: `Optional: Provide extra context or specific instructions to Taskmaster for generating the subtasks.` (CLI: `-p, --prompt <text>`)
* `force`: `Optional: If true, clear existing subtasks before generating new ones. Default is false (append).` (CLI: `--force`)
* `tag`: `Specify which tag context the task belongs to. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Generate a detailed implementation plan for a complex task before starting coding. Automatically uses complexity report recommendations if available and `num` is not specified.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 14. Expand All Tasks (`expand_all`)
* **MCP Tool:** `expand_all`
* **CLI Command:** `task-master expand --all [options]` (Note: CLI uses the `expand` command with the `--all` flag)
* **Description:** `Tell Taskmaster to automatically expand all eligible pending/in-progress tasks based on complexity analysis or defaults. Appends subtasks by default.`
* **Key Parameters/Options:**
* `num`: `Optional: Suggests how many subtasks Taskmaster should aim to create per task.` (CLI: `-n, --num <number>`)
* `research`: `Enable research role for more informed subtask generation. Requires appropriate API key.` (CLI: `-r, --research`)
* `prompt`: `Optional: Provide extra context for Taskmaster to apply generally during expansion.` (CLI: `-p, --prompt <text>`)
* `force`: `Optional: If true, clear existing subtasks before generating new ones for each eligible task. Default is false (append).` (CLI: `--force`)
* `tag`: `Specify which tag context to expand. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Useful after initial task generation or complexity analysis to break down multiple tasks at once.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 15. Clear Subtasks (`clear_subtasks`)
* **MCP Tool:** `clear_subtasks`
* **CLI Command:** `task-master clear-subtasks [options]`
* **Description:** `Remove all subtasks from one or more specified Taskmaster parent tasks.`
* **Key Parameters/Options:**
* `id`: `The ID(s) of the Taskmaster parent task(s) whose subtasks you want to remove, e.g., '15' or '16,18'. Required unless using 'all'.` (CLI: `-i, --id <ids>`)
* `all`: `Tell Taskmaster to remove subtasks from all parent tasks.` (CLI: `--all`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Used before regenerating subtasks with `expand_task` if the previous breakdown needs replacement.
### 16. Remove Subtask (`remove_subtask`)
* **MCP Tool:** `remove_subtask`
* **CLI Command:** `task-master remove-subtask [options]`
* **Description:** `Remove a subtask from its Taskmaster parent, optionally converting it into a standalone task.`
* **Key Parameters/Options:**
* `id`: `Required. The ID(s) of the Taskmaster subtask(s) to remove, e.g., '15.2' or '16.1,16.3'.` (CLI: `-i, --id <id>`)
* `convert`: `If used, Taskmaster will turn the subtask into a regular top-level task instead of deleting it.` (CLI: `-c, --convert`)
* `generate`: `Enable Taskmaster to regenerate markdown task files after removing the subtask.` (CLI: `--generate`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Delete unnecessary subtasks or promote a subtask to a top-level task.
### 17. Move Task (`move_task`)
* **MCP Tool:** `move_task`
* **CLI Command:** `task-master move [options]`
* **Description:** `Move a task or subtask to a new position within the task hierarchy.`
* **Key Parameters/Options:**
* `from`: `Required. ID of the task/subtask to move (e.g., "5" or "5.2"). Can be comma-separated for multiple tasks.` (CLI: `--from <id>`)
* `to`: `Required. ID of the destination (e.g., "7" or "7.3"). Must match the number of source IDs if comma-separated.` (CLI: `--to <id>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Reorganize tasks by moving them within the hierarchy. Supports various scenarios like:
* Moving a task to become a subtask
* Moving a subtask to become a standalone task
* Moving a subtask to a different parent
* Reordering subtasks within the same parent
* Moving a task to a new, non-existent ID (automatically creates placeholders)
* Moving multiple tasks at once with comma-separated IDs
* **Validation Features:**
* Allows moving tasks to non-existent destination IDs (creates placeholder tasks)
* Prevents moving to existing task IDs that already have content (to avoid overwriting)
* Validates that source tasks exist before attempting to move them
* Maintains proper parent-child relationships
* **Example CLI:** `task-master move --from=5.2 --to=7.3` to move subtask 5.2 to become subtask 7.3.
* **Example Multi-Move:** `task-master move --from=10,11,12 --to=16,17,18` to move multiple tasks to new positions.
* **Common Use:** Resolving merge conflicts in tasks.json when multiple team members create tasks on different branches.
---
## Dependency Management
### 18. Add Dependency (`add_dependency`)
* **MCP Tool:** `add_dependency`
* **CLI Command:** `task-master add-dependency [options]`
* **Description:** `Define a dependency in Taskmaster, making one task a prerequisite for another.`
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task that will depend on another.` (CLI: `-i, --id <id>`)
* `dependsOn`: `Required. The ID of the Taskmaster task that must be completed first, the prerequisite.` (CLI: `-d, --depends-on <id>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <path>`)
* **Usage:** Establish the correct order of execution between tasks.
### 19. Remove Dependency (`remove_dependency`)
* **MCP Tool:** `remove_dependency`
* **CLI Command:** `task-master remove-dependency [options]`
* **Description:** `Remove a dependency relationship between two Taskmaster tasks.`
* **Key Parameters/Options:**
* `id`: `Required. The ID of the Taskmaster task you want to remove a prerequisite from.` (CLI: `-i, --id <id>`)
* `dependsOn`: `Required. The ID of the Taskmaster task that should no longer be a prerequisite.` (CLI: `-d, --depends-on <id>`)
* `tag`: `Specify which tag context to operate on. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Update task relationships when the order of execution changes.
### 20. Validate Dependencies (`validate_dependencies`)
* **MCP Tool:** `validate_dependencies`
* **CLI Command:** `task-master validate-dependencies [options]`
* **Description:** `Check your Taskmaster tasks for dependency issues (like circular references or links to non-existent tasks) without making changes.`
* **Key Parameters/Options:**
* `tag`: `Specify which tag context to validate. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Audit the integrity of your task dependencies.
### 21. Fix Dependencies (`fix_dependencies`)
* **MCP Tool:** `fix_dependencies`
* **CLI Command:** `task-master fix-dependencies [options]`
* **Description:** `Automatically fix dependency issues (like circular references or links to non-existent tasks) in your Taskmaster tasks.`
* **Key Parameters/Options:**
* `tag`: `Specify which tag context to fix dependencies in. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Clean up dependency errors automatically.
---
## Analysis & Reporting
### 22. Analyze Project Complexity (`analyze_project_complexity`)
* **MCP Tool:** `analyze_project_complexity`
* **CLI Command:** `task-master analyze-complexity [options]`
* **Description:** `Have Taskmaster analyze your tasks to determine their complexity and suggest which ones need to be broken down further.`
* **Key Parameters/Options:**
* `output`: `Where to save the complexity analysis report. Default is '.taskmaster/reports/task-complexity-report.json' (or '..._tagname.json' if a tag is used).` (CLI: `-o, --output <file>`)
* `threshold`: `The minimum complexity score (1-10) that should trigger a recommendation to expand a task.` (CLI: `-t, --threshold <number>`)
* `research`: `Enable research role for more accurate complexity analysis. Requires appropriate API key.` (CLI: `-r, --research`)
* `tag`: `Specify which tag context to analyze. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Used before breaking down tasks to identify which ones need the most attention.
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. Please inform users to hang tight while the operation is in progress.
### 23. View Complexity Report (`complexity_report`)
* **MCP Tool:** `complexity_report`
* **CLI Command:** `task-master complexity-report [options]`
* **Description:** `Display the task complexity analysis report in a readable format.`
* **Key Parameters/Options:**
* `tag`: `Specify which tag context to show the report for. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to the complexity report (default: '.taskmaster/reports/task-complexity-report.json').` (CLI: `-f, --file <file>`)
* **Usage:** Review and understand the complexity analysis results after running analyze-complexity.
---
## File Management
### 24. Generate Task Files (`generate`)
* **MCP Tool:** `generate`
* **CLI Command:** `task-master generate [options]`
* **Description:** `Create or update individual Markdown files for each task based on your tasks.json.`
* **Key Parameters/Options:**
* `output`: `The directory where Taskmaster should save the task files (default: in a 'tasks' directory).` (CLI: `-o, --output <directory>`)
* `tag`: `Specify which tag context to generate files for. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* **Usage:** Run this after making changes to tasks.json to keep individual task files up to date. This command is now manual and no longer runs automatically.
---
## AI-Powered Research
### 25. Research (`research`)
* **MCP Tool:** `research`
* **CLI Command:** `task-master research [options]`
* **Description:** `Perform AI-powered research queries with project context to get fresh, up-to-date information beyond the AI's knowledge cutoff.`
* **Key Parameters/Options:**
* `query`: `Required. Research query/prompt (e.g., "What are the latest best practices for React Query v5?").` (CLI: `[query]` positional or `-q, --query <text>`)
* `taskIds`: `Comma-separated list of task/subtask IDs from the current tag context (e.g., "15,16.2,17").` (CLI: `-i, --id <ids>`)
* `filePaths`: `Comma-separated list of file paths for context (e.g., "src/api.js,docs/readme.md").` (CLI: `-f, --files <paths>`)
* `customContext`: `Additional custom context text to include in the research.` (CLI: `-c, --context <text>`)
* `includeProjectTree`: `Include project file tree structure in context (default: false).` (CLI: `--tree`)
* `detailLevel`: `Detail level for the research response: 'low', 'medium', 'high' (default: medium).` (CLI: `--detail <level>`)
* `saveTo`: `Task or subtask ID (e.g., "15", "15.2") to automatically save the research conversation to.` (CLI: `--save-to <id>`)
* `saveFile`: `If true, saves the research conversation to a markdown file in '.taskmaster/docs/research/'.` (CLI: `--save-file`)
* `noFollowup`: `Disables the interactive follow-up question menu in the CLI.` (CLI: `--no-followup`)
* `tag`: `Specify which tag context to use for task-based context gathering. Defaults to the current active tag.` (CLI: `--tag <name>`)
* `projectRoot`: `The directory of the project. Must be an absolute path.` (CLI: Determined automatically)
* **Usage:** **This is a POWERFUL tool that agents should use FREQUENTLY** to:
* Get fresh information beyond knowledge cutoff dates
* Research latest best practices, library updates, security patches
* Find implementation examples for specific technologies
* Validate approaches against current industry standards
* Get contextual advice based on project files and tasks
* **When to Consider Using Research:**
* **Before implementing any task** - Research current best practices
* **When encountering new technologies** - Get up-to-date implementation guidance (libraries, apis, etc)
* **For security-related tasks** - Find latest security recommendations
* **When updating dependencies** - Research breaking changes and migration guides
* **For performance optimization** - Get current performance best practices
* **When debugging complex issues** - Research known solutions and workarounds
* **Research + Action Pattern:**
* Use `research` to gather fresh information
* Use `update_subtask` to commit findings with timestamps
* Use `update_task` to incorporate research into task details
* Use `add_task` with research flag for informed task creation
* **Important:** This MCP tool makes AI calls and can take up to a minute to complete. The research provides FRESH data beyond the AI's training cutoff, making it invaluable for current best practices and recent developments.
---
## Tag Management
This new suite of commands allows you to manage different task contexts (tags).
### 26. List Tags (`tags`)
* **MCP Tool:** `list_tags`
* **CLI Command:** `task-master tags [options]`
* **Description:** `List all available tags with task counts, completion status, and other metadata.`
* **Key Parameters/Options:**
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
* `--show-metadata`: `Include detailed metadata in the output (e.g., creation date, description).` (CLI: `--show-metadata`)
### 27. Add Tag (`add_tag`)
* **MCP Tool:** `add_tag`
* **CLI Command:** `task-master add-tag <tagName> [options]`
* **Description:** `Create a new, empty tag context, or copy tasks from another tag.`
* **Key Parameters/Options:**
* `tagName`: `Name of the new tag to create (alphanumeric, hyphens, underscores).` (CLI: `<tagName>` positional)
* `--from-branch`: `Creates a tag with a name derived from the current git branch, ignoring the <tagName> argument.` (CLI: `--from-branch`)
* `--copy-from-current`: `Copy tasks from the currently active tag to the new tag.` (CLI: `--copy-from-current`)
* `--copy-from <tag>`: `Copy tasks from a specific source tag to the new tag.` (CLI: `--copy-from <tag>`)
* `--description <text>`: `Provide an optional description for the new tag.` (CLI: `-d, --description <text>`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 28. Delete Tag (`delete_tag`)
* **MCP Tool:** `delete_tag`
* **CLI Command:** `task-master delete-tag <tagName> [options]`
* **Description:** `Permanently delete a tag and all of its associated tasks.`
* **Key Parameters/Options:**
* `tagName`: `Name of the tag to delete.` (CLI: `<tagName>` positional)
* `--yes`: `Skip the confirmation prompt.` (CLI: `-y, --yes`)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 29. Use Tag (`use_tag`)
* **MCP Tool:** `use_tag`
* **CLI Command:** `task-master use-tag <tagName>`
* **Description:** `Switch your active task context to a different tag.`
* **Key Parameters/Options:**
* `tagName`: `Name of the tag to switch to.` (CLI: `<tagName>` positional)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 30. Rename Tag (`rename_tag`)
* **MCP Tool:** `rename_tag`
* **CLI Command:** `task-master rename-tag <oldName> <newName>`
* **Description:** `Rename an existing tag.`
* **Key Parameters/Options:**
* `oldName`: `The current name of the tag.` (CLI: `<oldName>` positional)
* `newName`: `The new name for the tag.` (CLI: `<newName>` positional)
* `file`: `Path to your Taskmaster 'tasks.json' file. Default relies on auto-detection.` (CLI: `-f, --file <file>`)
### 31. Copy Tag (`copy_tag`)
* **MCP Tool:** `copy_tag`
* **CLI Command:** `task-master copy-tag <sourceName> <targetName> [options]`
* **Description:** `Copy an entire tag context, including all its tasks and metadata, to a new tag.`
* **Key Parameters/Options:**
* `sourceName`: `Name of the tag to copy from.` (CLI: `<sourceName>` positional)
* `targetName`: `Name of the new tag to create.` (CLI: `<targetName>` positional)
* `--description <text>`: `Optional description for the new tag.` (CLI: `-d, --description <text>`)
---
## Miscellaneous
### 32. Sync Readme (`sync-readme`) -- experimental
* **MCP Tool:** N/A
* **CLI Command:** `task-master sync-readme [options]`
* **Description:** `Exports your task list to your project's README.md file, useful for showcasing progress.`
* **Key Parameters/Options:**
* `status`: `Filter tasks by status (e.g., 'pending', 'done').` (CLI: `-s, --status <status>`)
* `withSubtasks`: `Include subtasks in the export.` (CLI: `--with-subtasks`)
* `tag`: `Specify which tag context to export from. Defaults to the current active tag.` (CLI: `--tag <name>`)
---
## Environment Variables Configuration (Updated)
Taskmaster primarily uses the **`.taskmaster/config.json`** file (in project root) for configuration (models, parameters, logging level, etc.), managed via `task-master models --setup`.
Environment variables are used **only** for sensitive API keys related to AI providers and specific overrides like the Ollama base URL:
* **API Keys (Required for corresponding provider):**
* `ANTHROPIC_API_KEY`
* `PERPLEXITY_API_KEY`
* `OPENAI_API_KEY`
* `GOOGLE_API_KEY`
* `MISTRAL_API_KEY`
* `AZURE_OPENAI_API_KEY` (Requires `AZURE_OPENAI_ENDPOINT` too)
* `OPENROUTER_API_KEY`
* `XAI_API_KEY`
* `OLLAMA_API_KEY` (Requires `OLLAMA_BASE_URL` too)
* **Endpoints (Optional/Provider Specific inside .taskmaster/config.json):**
* `AZURE_OPENAI_ENDPOINT`
* `OLLAMA_BASE_URL` (Default: `http://localhost:11434/api`)
**Set API keys** in your **`.env`** file in the project root (for CLI use) or within the `env` section of your **`.kiro/mcp.json`** file (for MCP/Kiro integration). All other settings (model choice, max tokens, temperature, log level, custom endpoints) are managed in `.taskmaster/config.json` via `task-master models` command or `models` MCP tool.
---
For details on how these commands fit into the development process, see the [dev_workflow.md](.kiro/steering/dev_workflow.md).

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---
inclusion: always
---
# Taskmaster Hook-Driven Workflow
## Core Principle: Hooks Automate Task Management
When working with Taskmaster in Kiro, **avoid manually marking tasks as done**. The hook system automatically handles task completion based on:
- **Test Success**: `[TM] Test Success Task Completer` detects passing tests and prompts for task completion
- **Code Changes**: `[TM] Code Change Task Tracker` monitors implementation progress
- **Dependency Chains**: `[TM] Task Dependency Auto-Progression` auto-starts dependent tasks
## AI Assistant Workflow
Follow this pattern when implementing features:
1. **Implement First**: Write code, create tests, make changes
2. **Save Frequently**: Hooks trigger on file saves to track progress automatically
3. **Let Hooks Decide**: Allow hooks to detect completion rather than manually setting status
4. **Respond to Prompts**: Confirm when hooks suggest task completion
## Key Rules for AI Assistants
- **Never use `tm set-status --status=done`** unless hooks fail to detect completion
- **Always write tests** - they provide the most reliable completion signal
- **Save files after implementation** - this triggers progress tracking
- **Trust hook suggestions** - if no completion prompt appears, more work may be needed
## Automatic Behaviors
The hook system provides:
- **Progress Logging**: Implementation details automatically added to task notes
- **Evidence-Based Completion**: Tasks marked done only when criteria are met
- **Dependency Management**: Next tasks auto-started when dependencies complete
- **Natural Flow**: Focus on coding, not task management overhead
## Manual Override Cases
Only manually set task status for:
- Documentation-only tasks
- Tasks without testable outcomes
- Emergency fixes without proper test coverage
Use `tm set-status` sparingly - prefer hook-driven completion.
## Implementation Pattern
```
1. Implement feature → Save file
2. Write tests → Save test file
3. Tests pass → Hook prompts completion
4. Confirm completion → Next task auto-starts
```
This workflow ensures proper task tracking while maintaining development flow.

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

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{
"mcpServers": {
"task-master-ai": {
"type": "stdio",
"command": "npx",
"args": ["-y", "task-master-ai"]
}
}
}

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22
22

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# Task Master AI - Agent Integration Guide
## Essential Commands
### Core Workflow Commands
```bash
# Project Setup
task-master init # Initialize Task Master in current project
task-master parse-prd .taskmaster/docs/prd.txt # Generate tasks from PRD document
task-master models --setup # Configure AI models interactively
# Daily Development Workflow
task-master list # Show all tasks with status
task-master next # Get next available task to work on
task-master show <id> # View detailed task information (e.g., task-master show 1.2)
task-master set-status --id=<id> --status=done # Mark task complete
# Task Management
task-master add-task --prompt="description" --research # Add new task with AI assistance
task-master expand --id=<id> --research --force # Break task into subtasks
task-master update-task --id=<id> --prompt="changes" # Update specific task
task-master update --from=<id> --prompt="changes" # Update multiple tasks from ID onwards
task-master update-subtask --id=<id> --prompt="notes" # Add implementation notes to subtask
# Analysis & Planning
task-master analyze-complexity --research # Analyze task complexity
task-master complexity-report # View complexity analysis
task-master expand --all --research # Expand all eligible tasks
# Dependencies & Organization
task-master add-dependency --id=<id> --depends-on=<id> # Add task dependency
task-master move --from=<id> --to=<id> # Reorganize task hierarchy
task-master validate-dependencies # Check for dependency issues
task-master generate # Update task markdown files (usually auto-called)
```
## Key Files & Project Structure
### Core Files
- `.taskmaster/tasks/tasks.json` - Main task data file (auto-managed)
- `.taskmaster/config.json` - AI model configuration (use `task-master models` to modify)
- `.taskmaster/docs/prd.txt` - Product Requirements Document for parsing
- `.taskmaster/tasks/*.txt` - Individual task files (auto-generated from tasks.json)
- `.env` - API keys for CLI usage
### Claude Code Integration Files
- `CLAUDE.md` - Auto-loaded context for Claude Code (this file)
- `.claude/settings.json` - Claude Code tool allowlist and preferences
- `.claude/commands/` - Custom slash commands for repeated workflows
- `.mcp.json` - MCP server configuration (project-specific)
### Directory Structure
```
project/
├── .taskmaster/
│ ├── tasks/ # Task files directory
│ │ ├── tasks.json # Main task database
│ │ ├── task-1.md # Individual task files
│ │ └── task-2.md
│ ├── docs/ # Documentation directory
│ │ ├── prd.txt # Product requirements
│ ├── reports/ # Analysis reports directory
│ │ └── task-complexity-report.json
│ ├── templates/ # Template files
│ │ └── example_prd.txt # Example PRD template
│ └── config.json # AI models & settings
├── .claude/
│ ├── settings.json # Claude Code configuration
│ └── commands/ # Custom slash commands
├── .env # API keys
├── .mcp.json # MCP configuration
└── CLAUDE.md # This file - auto-loaded by Claude Code
```
## MCP Integration
Task Master provides an MCP server that Claude Code can connect to. Configure in `.mcp.json`:
```json
{
"mcpServers": {
"task-master-ai": {
"command": "npx",
"args": ["-y", "task-master-ai"],
"env": {
"ANTHROPIC_API_KEY": "your_key_here",
"PERPLEXITY_API_KEY": "your_key_here",
"OPENAI_API_KEY": "OPENAI_API_KEY_HERE",
"GOOGLE_API_KEY": "GOOGLE_API_KEY_HERE",
"XAI_API_KEY": "XAI_API_KEY_HERE",
"OPENROUTER_API_KEY": "OPENROUTER_API_KEY_HERE",
"MISTRAL_API_KEY": "MISTRAL_API_KEY_HERE",
"AZURE_OPENAI_API_KEY": "AZURE_OPENAI_API_KEY_HERE",
"OLLAMA_API_KEY": "OLLAMA_API_KEY_HERE"
}
}
}
}
```
### Essential MCP Tools
```javascript
help; // = shows available taskmaster commands
// Project setup
initialize_project; // = task-master init
parse_prd; // = task-master parse-prd
// Daily workflow
get_tasks; // = task-master list
next_task; // = task-master next
get_task; // = task-master show <id>
set_task_status; // = task-master set-status
// Task management
add_task; // = task-master add-task
expand_task; // = task-master expand
update_task; // = task-master update-task
update_subtask; // = task-master update-subtask
update; // = task-master update
// Analysis
analyze_project_complexity; // = task-master analyze-complexity
complexity_report; // = task-master complexity-report
```
## Claude Code Workflow Integration
### Standard Development Workflow
#### 1. Project Initialization
```bash
# Initialize Task Master
task-master init
# Create or obtain PRD, then parse it
task-master parse-prd .taskmaster/docs/prd.txt
# Analyze complexity and expand tasks
task-master analyze-complexity --research
task-master expand --all --research
```
If tasks already exist, another PRD can be parsed (with new information only!) using parse-prd with --append flag. This will add the generated tasks to the existing list of tasks..
#### 2. Daily Development Loop
```bash
# Start each session
task-master next # Find next available task
task-master show <id> # Review task details
# During implementation, check in code context into the tasks and subtasks
task-master update-subtask --id=<id> --prompt="implementation notes..."
# Complete tasks
task-master set-status --id=<id> --status=done
```
#### 3. Multi-Claude Workflows
For complex projects, use multiple Claude Code sessions:
```bash
# Terminal 1: Main implementation
cd project && claude
# Terminal 2: Testing and validation
cd project-test-worktree && claude
# Terminal 3: Documentation updates
cd project-docs-worktree && claude
```
### Custom Slash Commands
Create `.claude/commands/taskmaster-next.md`:
```markdown
Find the next available Task Master task and show its details.
Steps:
1. Run `task-master next` to get the next task
2. If a task is available, run `task-master show <id>` for full details
3. Provide a summary of what needs to be implemented
4. Suggest the first implementation step
```
Create `.claude/commands/taskmaster-complete.md`:
```markdown
Complete a Task Master task: $ARGUMENTS
Steps:
1. Review the current task with `task-master show $ARGUMENTS`
2. Verify all implementation is complete
3. Run any tests related to this task
4. Mark as complete: `task-master set-status --id=$ARGUMENTS --status=done`
5. Show the next available task with `task-master next`
```
## Tool Allowlist Recommendations
Add to `.claude/settings.json`:
```json
{
"allowedTools": [
"Edit",
"Bash(task-master *)",
"Bash(git commit:*)",
"Bash(git add:*)",
"Bash(npm run *)",
"mcp__task_master_ai__*"
]
}
```
## Configuration & Setup
### API Keys Required
At least **one** of these API keys must be configured:
- `ANTHROPIC_API_KEY` (Claude models) - **Recommended**
- `PERPLEXITY_API_KEY` (Research features) - **Highly recommended**
- `OPENAI_API_KEY` (GPT models)
- `GOOGLE_API_KEY` (Gemini models)
- `MISTRAL_API_KEY` (Mistral models)
- `OPENROUTER_API_KEY` (Multiple models)
- `XAI_API_KEY` (Grok models)
An API key is required for any provider used across any of the 3 roles defined in the `models` command.
### Model Configuration
```bash
# Interactive setup (recommended)
task-master models --setup
# Set specific models
task-master models --set-main claude-3-5-sonnet-20241022
task-master models --set-research perplexity-llama-3.1-sonar-large-128k-online
task-master models --set-fallback gpt-4o-mini
```
## Task Structure & IDs
### Task ID Format
- Main tasks: `1`, `2`, `3`, etc.
- Subtasks: `1.1`, `1.2`, `2.1`, etc.
- Sub-subtasks: `1.1.1`, `1.1.2`, etc.
### Task Status Values
- `pending` - Ready to work on
- `in-progress` - Currently being worked on
- `done` - Completed and verified
- `deferred` - Postponed
- `cancelled` - No longer needed
- `blocked` - Waiting on external factors
### Task Fields
```json
{
"id": "1.2",
"title": "Implement user authentication",
"description": "Set up JWT-based auth system",
"status": "pending",
"priority": "high",
"dependencies": ["1.1"],
"details": "Use bcrypt for hashing, JWT for tokens...",
"testStrategy": "Unit tests for auth functions, integration tests for login flow",
"subtasks": []
}
```
## Claude Code Best Practices with Task Master
### Context Management
- Use `/clear` between different tasks to maintain focus
- This CLAUDE.md file is automatically loaded for context
- Use `task-master show <id>` to pull specific task context when needed
### Iterative Implementation
1. `task-master show <subtask-id>` - Understand requirements
2. Explore codebase and plan implementation
3. `task-master update-subtask --id=<id> --prompt="detailed plan"` - Log plan
4. `task-master set-status --id=<id> --status=in-progress` - Start work
5. Implement code following logged plan
6. `task-master update-subtask --id=<id> --prompt="what worked/didn't work"` - Log progress
7. `task-master set-status --id=<id> --status=done` - Complete task
### Complex Workflows with Checklists
For large migrations or multi-step processes:
1. Create a markdown PRD file describing the new changes: `touch task-migration-checklist.md` (prds can be .txt or .md)
2. Use Taskmaster to parse the new prd with `task-master parse-prd --append` (also available in MCP)
3. Use Taskmaster to expand the newly generated tasks into subtasks. Consdier using `analyze-complexity` with the correct --to and --from IDs (the new ids) to identify the ideal subtask amounts for each task. Then expand them.
4. Work through items systematically, checking them off as completed
5. Use `task-master update-subtask` to log progress on each task/subtask and/or updating/researching them before/during implementation if getting stuck
### Git Integration
Task Master works well with `gh` CLI:
```bash
# Create PR for completed task
gh pr create --title "Complete task 1.2: User authentication" --body "Implements JWT auth system as specified in task 1.2"
# Reference task in commits
git commit -m "feat: implement JWT auth (task 1.2)"
```
### Parallel Development with Git Worktrees
```bash
# Create worktrees for parallel task development
git worktree add ../project-auth feature/auth-system
git worktree add ../project-api feature/api-refactor
# Run Claude Code in each worktree
cd ../project-auth && claude # Terminal 1: Auth work
cd ../project-api && claude # Terminal 2: API work
```
## Troubleshooting
### AI Commands Failing
```bash
# Check API keys are configured
cat .env # For CLI usage
# Verify model configuration
task-master models
# Test with different model
task-master models --set-fallback gpt-4o-mini
```
### MCP Connection Issues
- Check `.mcp.json` configuration
- Verify Node.js installation
- Use `--mcp-debug` flag when starting Claude Code
- Use CLI as fallback if MCP unavailable
### Task File Sync Issues
```bash
# Regenerate task files from tasks.json
task-master generate
# Fix dependency issues
task-master fix-dependencies
```
DO NOT RE-INITIALIZE. That will not do anything beyond re-adding the same Taskmaster core files.
## Important Notes
### AI-Powered Operations
These commands make AI calls and may take up to a minute:
- `parse_prd` / `task-master parse-prd`
- `analyze_project_complexity` / `task-master analyze-complexity`
- `expand_task` / `task-master expand`
- `expand_all` / `task-master expand --all`
- `add_task` / `task-master add-task`
- `update` / `task-master update`
- `update_task` / `task-master update-task`
- `update_subtask` / `task-master update-subtask`
### File Management
- Never manually edit `tasks.json` - use commands instead
- Never manually edit `.taskmaster/config.json` - use `task-master models`
- Task markdown files in `tasks/` are auto-generated
- Run `task-master generate` after manual changes to tasks.json
### Claude Code Session Management
- Use `/clear` frequently to maintain focused context
- Create custom slash commands for repeated Task Master workflows
- Configure tool allowlist to streamline permissions
- Use headless mode for automation: `claude -p "task-master next"`
### Multi-Task Updates
- Use `update --from=<id>` to update multiple future tasks
- Use `update-task --id=<id>` for single task updates
- Use `update-subtask --id=<id>` for implementation logging
### Research Mode
- Add `--research` flag for research-based AI enhancement
- Requires a research model API key like Perplexity (`PERPLEXITY_API_KEY`) in environment
- Provides more informed task creation and updates
- Recommended for complex technical tasks
---
_This guide ensures Claude Code has immediate access to Task Master's essential functionality for agentic development workflows._

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

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

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---
title: Research Session
query: "how can i improve the scope-up and scope-down command"
date: 6/14/2025
time: 4:35:03 PM
timestamp: 2025-06-14T20:35:03.231Z
exchanges: 2
---
# Research Session
## Initial Query
**Question:** how can i improve the scope-up and scope-down command
**Response:**
## Improving the `scope-up` and `scope-down` Commands
**Clarify Command Purpose and User Experience**
- Ensure the commands have clear, intuitive behavior. For example, `scope-up` should consistently broaden the context or task view, while `scope-down` should reliably narrow it.
- Provide immediate, user-friendly feedback after each command, indicating what changed (e.g., "Now viewing parent task and all subtasks" or "Focused on subtask: X").
- Document the commands with examples in your `docs/command-reference.md` and `docs/examples.md` to help users understand their effects and use cases.
**Enhance Context Awareness**
- Make the commands context-sensitive: if the user is already at the top or bottom of the scope hierarchy, return a helpful message instead of failing silently.
- Allow optional arguments to specify the exact level or target (e.g., `scope-up 2` to move up two levels, or `scope-down <subtask-id>` to jump directly to a subtask).
**Robust Error Handling and Validation**
- Implement checks to prevent invalid operations, such as attempting to scope up from the root or scope down when no subtasks exist.
- Provide clear error messages and suggestions for next steps, improving user trust and reducing confusion[1][5].
**Integrate with Task and Tag Systems**
- Ensure `scope-up` and `scope-down` interact smoothly with your tagging and task hierarchy features. For example, scoping up from a subtask should show the parent task and its context, while scoping down should allow selection from available subtasks or related tags.
- Consider supporting batch operations, such as scoping down into all subtasks and displaying them in a summarized view.
**Improve Performance and Synchronization**
- Optimize the underlying logic to minimize delays, especially in large task trees. Use asynchronous operations where possible to keep the UI responsive.
- If the commands trigger data loading or context switching, ensure synchronization so that subsequent commands operate on the correct, updated context[2][4].
**Testing and Stakeholder Feedback**
- Add or expand unit and integration tests for these commands (see `tests/unit/commands.test.js` and `integration/cli/commands.test.js`) to cover edge cases and ensure reliability.
- Gather feedback from users and stakeholders to identify pain points and desired enhancements, then iterate on the command design and implementation[1][5].
**Example Improvements Table**
| Area | Current Issue | Suggested Improvement |
|---------------------|-----------------------------|----------------------------------------------|
| User Feedback | Minimal or unclear output | Add explicit, contextual messages |
| Error Handling | Silent failures | Informative errors and recovery suggestions |
| Flexibility | Only single-level movement | Support multi-level and targeted navigation |
| Integration | Limited context awareness | Sync with tags, parent/child relationships |
| Performance | Slow on large hierarchies | Optimize data access and UI updates |
By focusing on these areas, you can make `scope-up` and `scope-down` more robust, user-friendly, and aligned with best practices in scope management and command design[1][5].
---
## Follow-up 1
**Question:** how might i do this relative to the tag system?
**Response:**
## Integrating Scope-Up and Scope-Down with the Tag System
**Conceptual Mapping**
- In your project, *scope-up* and *scope-down* commands currently operate on the task hierarchy, broadening or narrowing the context by moving between parent and child tasks.
- The tag system provides a parallel, orthogonal way to group and filter tasks—tags can represent categories, priorities, or any custom grouping, independent of strict parent/child relationships.
**How to Make Scope Commands Tag-Aware**
- **Scoping by Tag**: Allow users to "scope-down" into a tag, viewing only tasks associated with that tag. Conversely, "scope-up" could move from a specific tag context back to the broader task list or to a parent tag grouping if you support tag hierarchies.
- **Tag-Scoped Views**: When a tag is active as the current scope, all navigation and operations (listing, editing, etc.) are limited to tasks with that tag. This is similar to how some systems let you set the "Tag Scope" to filter navigation and search to only tagged items[1][5].
- **Combining Hierarchy and Tags**: Enable compound scoping, such as "all subtasks of Task X that also have Tag Y." This can be implemented by intersecting the results of hierarchical and tag-based queries.
**Implementation Strategies**
- **Scope Stack or Context Object**: Maintain a stack or context object that tracks both the current task scope and any active tag filters. Each scope change (up/down or tag in/out) updates this context.
- **Commands**:
- `scope-down --tag <tag>`: Narrows the view to tasks with the specified tag.
- `scope-up --tag`: Removes the tag filter, broadening the view.
- `scope-down <subtask-id> --tag <tag>`: Narrows to a specific subtask *and* applies a tag filter.
- **Tag Hierarchies (Optional)**: If your tag system supports parent/child tags or tag groups, allow "scope-up" to move from a specific tag to its parent tag or group, and "scope-down" to move into a child tag[4][5].
**Example User Flows**
- *Scoping Down by Tag*:
User runs `scope-down --tag urgent` → Only tasks tagged "urgent" are shown.
- *Combining Task and Tag*:
User runs `scope-down <task-id> --tag frontend` → Only subtasks of `<task-id>` that are tagged "frontend" are shown.
- *Scoping Up from Tag*:
User runs `scope-up --tag` → Removes the tag filter, returning to the previous broader context.
**Technical Considerations**
- **Efficient Filtering**: Use indexed queries or in-memory filtering to efficiently combine tag and hierarchy filters, especially for large task sets.
- **Feedback and UI**: Always display the current scope context (e.g., "Viewing tasks tagged 'urgent' under 'Feature X'") so users understand what they're seeing.
- **Extensibility**: Design the scope system so new types of scopes (e.g., by status, assignee) can be added in the future, not just tags and hierarchy.
**Relevant Precedents**
- Tag-based file systems and management tools often implement "scopes" as dynamic groups defined by tag criteria, allowing users to build up complex views by combining tags and other filters[5].
- Some systems allow scoping into tag management itself, where you can create, edit, or view tags and their associated objects, which could be mirrored in your CLI or UI[4].
**Summary Table**
| Command Example | Resulting Scope |
|----------------------------------|--------------------------------------------------|
| `scope-down --tag bug` | All tasks tagged "bug" |
| `scope-down <task-id> --tag api` | Subtasks of `<task-id>` tagged "api" |
| `scope-up --tag` | Removes tag filter, returns to previous scope |
| `scope-down --tag frontend` | All tasks tagged "frontend" |
By integrating tag-based scoping, you make your scope commands more flexible and powerful, supporting both hierarchical and ad-hoc organizational strategies[1][5].
---
*Generated by Task Master Research Command*
*Timestamp: 2025-06-14T20:35:03.231Z*

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---
title: Research Session
query: "should i be using any specific libraries for this?"
date: 6/14/2025
time: 5:20:00 PM
timestamp: 2025-06-14T21:20:00.561Z
exchanges: 2
---
# Research Session
## Initial Query
**Question:** should i be using any specific libraries for this?
**Response:**
HELL YEAH PARTNER
For implementing a GitHub Issue export feature with bidirectional linking in your project, you absolutely should use a dedicated library for interacting with the GitHub API. This will save you a ton of time, reduce boilerplate, and help you avoid common pitfalls with authentication, pagination, and error handling.
## Recommended Library: PyGithub
- **PyGithub** is the most widely used and well-documented Python library for accessing the GitHub REST API v3. It allows you to manage repositories, issues, user profiles, and more, all with a clean, object-oriented interface[1][2][3][5].
- It supports all the operations youll need for your export feature, including creating issues, updating them, and managing references for bidirectional linking.
### Key Features
- **Authentication**: Easily authenticate with a personal access token.
- **Issue Management**: Create, update, and link issues programmatically.
- **Repository Access**: Fetch and manipulate repository data.
- **User/Org Support**: Works for both user and organization repos.
- **Pagination & Rate Limiting**: Handles these for you.
### Example Usage
```python
from github import Github, Auth
# Authenticate with a personal access token
auth = Auth.Token("your_github_token")
g = Github(auth=auth)
# Get the repo
repo = g.get_repo("owner/repo_name")
# Create a new issue
issue = repo.create_issue(
title="Exported from Task Master",
body="This issue was created by Task Master. [Task ID: 123]"
)
# Add a comment or update the issue to include a backlink
issue.create_comment("Linked to Task Master task #123")
```
[3][5]
## Why Not Use Raw Requests?
- While you *can* use the `requests` library to call the GitHub API directly[4], PyGithub abstracts away authentication, error handling, and pagination, making your code much cleaner and less error-prone[2][5].
## Integration Tips
- Store your GitHub token securely (e.g., in environment variables).
- Use PyGithubs objects to fetch, create, and update issues.
- For bidirectional linking, store the GitHub issue URL in your task data and the Task Master task ID in the GitHub issue body or as a label/comment.
- PyGithub is actively maintained and widely used, so youll find plenty of support and documentation.
## Installation
```bash
pip install PyGithub
```
[3]
## Summary Table
| Library | Language | API Coverage | Ease of Use | Maintained | Docs/Support |
|-----------|----------|--------------|-------------|------------|--------------|
| PyGithub | Python | Full | High | Yes | Excellent |
| requests | Python | Full (manual)| Medium | Yes | Good |
**Use PyGithub for all GitHub API interactions in your export/import features.** Its the standard for Python projects and will make your implementation faster, safer, and more maintainable[1][2][3][5].
---
## Follow-up 1
**Question:** we don't want to use py github because we have a node project
**Response:**
HELL YEAH PARTNER
For a Node.js project, you should use a Node-native library to interact with the GitHub API instead of PyGithub, which is Python-only. The industry standard for Node.js is **Octokit**, the official GitHub SDK for JavaScript/TypeScript[1][2].
## Why Use Octokit?
- **Official & Complete**: Octokit is maintained by GitHub and covers all REST and GraphQL API endpoints, including issues, repositories, users, and more[1][2].
- **Universal**: Works in Node.js, browsers, and Deno environments[2].
- **Typed & Tested**: Comes with TypeScript declarations and 100% test coverage[2].
- **Authentication**: Supports personal access tokens, GitHub Apps, OAuth, and more.
- **Pagination & Error Handling**: Handles pagination and common error scenarios out of the box.
- **Extendable**: Supports plugins and custom hooks for advanced use cases[2].
## How to Use Octokit for GitHub Issue Export
Install Octokit in your Node.js project:
```bash
npm install @octokit/rest
```
Basic usage for creating and linking issues:
```js
const { Octokit } = require("@octokit/rest");
// Authenticate with a personal access token
const octokit = new Octokit({ auth: process.env.GITHUB_TOKEN });
// Create a new issue
const { data: issue } = await octokit.issues.create({
owner: "owner",
repo: "repo_name",
title: "Exported from Task Master",
body: "This issue was created by Task Master. [Task ID: 123]"
});
// Add a comment for bidirectional linking
await octokit.issues.createComment({
owner: "owner",
repo: "repo_name",
issue_number: issue.number,
body: "Linked to Task Master task #123"
});
```
## Alternatives
- **node-github**: An older library, less maintained than Octokit, but still functional for basic API access[5].
- **Raw HTTP Requests**: You can use `node-fetch` or `axios` to call the GitHub API directly, but youll need to handle authentication, pagination, and error handling yourself[3]. Octokit abstracts all of this for you.
## Summary Table
| Library | Language | API Coverage | Maintained | TypeScript | Docs/Support |
|-----------------|----------|--------------|------------|------------|--------------|
| Octokit | Node.js | Full | Yes | Yes | Excellent |
| node-github | Node.js | Full | No | No | Limited |
| Raw HTTP | Node.js | Full (manual)| N/A | N/A | N/A |
**Recommendation:** Use Octokit for all GitHub API interactions in your Node.js project. Its the official, most robust, and best-supported option for your use case[1][2].
---
*Generated by Task Master Research Command*
*Timestamp: 2025-06-14T21:20:00.561Z*

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---
title: Research Session
query: "test save functionality"
date: 6/14/2025
time: 5:50:23 PM
timestamp: 2025-06-14T21:50:23.797Z
exchanges: 1
---
# Research Session
## Initial Query
**Question:** test save functionality
**Response:**
## Testing Save Functionality in a Task Management System
**Core Steps for Testing Save Functionality**
- Create or update a task in the system using the CLI or UI.
- Trigger the save operation (e.g., by issuing a command or clicking a save button).
- Verify that the data is correctly written to the persistent storage (e.g., `tasks.json`).
- Reload or re-query the data to ensure the saved changes persist and are accurately reflected.
- Validate that all required fields and relationships (such as dependencies and subtasks) are preserved and correctly structured.
**Key Test Scenarios**
- **Basic Save:** Add a new task and confirm it appears in `tasks.json` with all fields populated.
- **Update Save:** Modify an existing task (e.g., change status, description, or priority) and verify the changes are saved.
- **Subtask and Dependency Preservation:** Update a parent task and ensure that completed subtasks and dependency links remain intact, especially after using commands like `updateTask`.
- **Batch Operations:** Perform bulk updates or additions and confirm all affected tasks are saved correctly, with no data loss or corruption.
- **Validation:** Attempt to save invalid data and ensure the system rejects it or provides meaningful error messages, confirming validation logic is enforced.
**Recommended Practices**
- Use automated tests to simulate save operations for various scenarios, including edge cases (e.g., circular dependencies, missing required fields).
- After each save, reload the data and compare it to the expected state to ensure integrity.
- Log all save operations and errors for traceability and debugging.
- Regularly back up the `tasks.json` file to prevent data loss during testing and development.
**Relevant Features from Industry Standards**
- Task management systems typically provide robust save and update mechanisms, ensuring that all task attributes (including dependencies, subtasks, and comments) are consistently maintained[1][2][5].
- Validation and error handling are critical to prevent corrupt or incomplete saves, especially when handling complex relationships or batch operations[1][5].
- User feedback (such as success messages or error alerts) is important for confirming save actions and guiding users in case of issues[1][2].
**Example Test Case**
1. Create a task with subtasks and dependencies.
2. Mark some subtasks as complete.
3. Use the `updateTask` command to modify the parent task.
4. Save and reload the data.
5. Assert that:
- The parent task reflects the updates.
- Completed subtasks remain marked as complete.
- Dependencies are unchanged and valid.
**Summary Table: Save Functionality Test Aspects**
| Aspect | What to Test | Expected Outcome |
|-----------------------|---------------------------------------------------|-----------------------------------------|
| Basic Save | Add/update task, save, reload | Data persists and matches expectations |
| Subtask Preservation | Update parent, check subtask status | Completed subtasks remain complete |
| Dependency Handling | Save with dependencies, reload | Dependencies are intact and valid |
| Batch Operations | Bulk save/update, reload | All changes persist, no data loss |
| Validation | Save invalid data | Error is raised, data not corrupted |
These steps and scenarios ensure that the save functionality is robust, reliable, and meets the requirements of a modern task management system[1][2][5].
---
*Generated by Task Master Research Command*
*Timestamp: 2025-06-14T21:50:23.797Z*

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---
title: Research Session
query: "test the fix for duplicate saves - final test"
date: 6/14/2025
time: 6:10:00 PM
timestamp: 2025-06-14T22:10:00.394Z
exchanges: 1
---
# Research Session
## Initial Query
**Question:** test the fix for duplicate saves - final test
**Response:**
## Steps to Test the Fix for Duplicate Saves
**1. Prepare a Clean Test Environment**
- Ensure the tasks.json file and any related data stores are in a known, clean state with no pre-existing duplicate entries.
- Back up the current tasks.json in case rollback is needed.
**2. Define Test Scenarios**
- Attempt to save a new task with unique data.
- Attempt to save a task with the same ID or unique identifier as an existing task (simulate a duplicate).
- Attempt to save a task with the same title or content but a different ID (to test if the fix is based on ID or content).
- Simultaneously trigger multiple save operations (if the system supports concurrency) to test race conditions.
**3. Execute Manual and Automated Tests**
- Use the application's UI or API to create and save tasks as per the scenarios above.
- For each save operation, check the tasks.json file or the data store to verify:
- No duplicate entries are created.
- Existing tasks are not overwritten unless intended (e.g., for updates).
- The system returns appropriate error messages or warnings when a duplicate save is attempted.
**4. Validate System Behavior**
- Confirm that after all test operations, each task in tasks.json is unique according to the defined criteria (ID, title, or other unique fields).
- If the system is designed to merge duplicates, verify that merging occurs as expected.
- If the system is designed to reject duplicates, ensure that the rejection is clear and no duplicate is present.
**5. Test Edge Cases**
- Attempt to save tasks with minor variations (e.g., whitespace differences, case sensitivity) to ensure the duplicate detection logic is robust.
- Test with large numbers of tasks to ensure performance and correctness at scale.
**6. Review Logs and Error Handling**
- Check application logs for any errors or warnings related to duplicate saves.
- Ensure that error handling is user-friendly and provides actionable feedback.
**7. Regression Testing**
- Run the full suite of task operations (create, update, delete) to ensure the fix for duplicate saves does not introduce new issues elsewhere in the system.
## Additional Best Practices
- Communicate test results with the team to confirm the fix is effective and to prevent future regressions[1][2][5].
- Consider implementing automated duplicate detection as part of the save operation to prevent future issues[2][3].
- Document the test cases and results for future reference and audits.
## Example Test Case Table
| Test Scenario | Expected Result | Actual Result | Pass/Fail |
|--------------------------------------|-------------------------------|---------------|-----------|
| Save unique task | Task saved | | |
| Save duplicate task (same ID) | Duplicate rejected/merged | | |
| Save duplicate task (same title) | Duplicate rejected/merged | | |
| Simultaneous saves (race condition) | Only one unique task present | | |
| Save with minor variations | No false positives/negatives | | |
Fill in the "Actual Result" and "Pass/Fail" columns during testing.
## Action Items
- Complete all test scenarios above.
- Document any issues found and retest after fixes.
- Confirm with stakeholders before closing the issue.
---
*Generated by Task Master Research Command*
*Timestamp: 2025-06-14T22:10:00.394Z*

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

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# Task Template Importing System - Product Requirements Document
<context>
# Overview
The Task Template Importing system enables seamless integration of external task templates into the Task Master CLI through automatic file discovery. This system allows users to drop task template files into the tasks directory and immediately access them as new tag contexts without manual import commands or configuration. The solution addresses the need for multi-project task management, team collaboration through shared templates, and clean separation between permanent tasks and temporary project contexts.
# Core Features
## Silent Task Template Discovery
- **What it does**: Automatically scans for `tasks_*.json` files in the tasks directory during tag operations
- **Why it's important**: Eliminates friction in adding new task contexts and enables zero-configuration workflow
- **How it works**: File pattern matching extracts tag names from filenames and validates against internal tag keys
## External Tag Resolution System
- **What it does**: Provides fallback mechanism to external files when tags are not found in main tasks.json
- **Why it's important**: Maintains clean separation between core tasks and project-specific templates
- **How it works**: Tag resolution logic checks external files as secondary source while preserving main file precedence
## Read-Only External Tag Access
- **What it does**: Allows viewing and switching to external tags while preventing modifications
- **Why it's important**: Protects template integrity and prevents accidental changes to shared templates
- **How it works**: All task modifications route to main tasks.json regardless of current tag context
## Tag Precedence Management
- **What it does**: Ensures main tasks.json tags override external files with same tag names
- **Why it's important**: Prevents conflicts and maintains data integrity
- **How it works**: Priority system where main file tags take precedence over external file tags
# User Experience
## User Personas
- **Solo Developer**: Manages multiple projects with different task contexts
- **Team Lead**: Shares standardized task templates across team members
- **Project Manager**: Organizes tasks by project phases or feature branches
## Key User Flows
### Template Addition Flow
1. User receives or creates a `tasks_projectname.json` file
2. User drops file into `.taskmaster/tasks/` directory
3. Tag becomes immediately available via `task-master use-tag projectname`
4. User can list, view, and switch to external tag without configuration
### Template Usage Flow
1. User runs `task-master tags` to see available tags including external ones
2. External tags display with `(imported)` indicator
3. User switches to external tag with `task-master use-tag projectname`
4. User can view tasks but modifications are routed to main tasks.json
## UI/UX Considerations
- External tags clearly marked with `(imported)` suffix in listings
- Visual indicators distinguish between main and external tags
- Error messages guide users when external files are malformed
- Read-only warnings when attempting to modify external tag contexts
</context>
<PRD>
# Technical Architecture
## System Components
1. **External File Discovery Engine**
- File pattern scanner for `tasks_*.json` files
- Tag name extraction from filenames using regex
- Dynamic tag registry combining main and external sources
- Error handling for malformed external files
2. **Enhanced Tag Resolution System**
- Fallback mechanism to external files when tags not found in main tasks.json
- Precedence management ensuring main file tags override external files
- Read-only access enforcement for external tags
- Tag metadata preservation during discovery operations
3. **Silent Discovery Integration**
- Automatic scanning during tag-related operations
- Seamless integration with existing tag management functions
- Zero-configuration workflow requiring no manual import commands
- Dynamic tag availability without restart requirements
## Data Models
### External Task File Structure
```json
{
"meta": {
"projectName": "External Project Name",
"version": "1.0.0",
"templateSource": "external",
"createdAt": "ISO-8601 timestamp"
},
"tags": {
"projectname": {
"meta": {
"name": "Project Name",
"description": "Project description",
"createdAt": "ISO-8601 timestamp"
},
"tasks": [
// Array of task objects
]
},
"master": {
// This section is ignored to prevent conflicts
}
}
}
```
### Enhanced Tag Registry Model
```json
{
"mainTags": [
{
"name": "master",
"source": "main",
"taskCount": 150,
"isActive": true
}
],
"externalTags": [
{
"name": "projectname",
"source": "external",
"filename": "tasks_projectname.json",
"taskCount": 25,
"isReadOnly": true
}
]
}
```
## APIs and Integrations
1. **File System Discovery API**
- Directory scanning with pattern matching
- JSON file validation and parsing
- Error handling for corrupted or malformed files
- File modification time tracking for cache invalidation
2. **Enhanced Tag Management API**
- `scanForExternalTaskFiles(projectRoot)` - Discover external template files
- `getExternalTagsFromFiles(projectRoot)` - Extract tag names from external files
- `readExternalTagData(projectRoot, tagName)` - Read specific external tag data
- `getAvailableTags(projectRoot)` - Combined main and external tag listing
3. **Tag Resolution Enhancement**
- Modified `readJSON()` with external file fallback
- Enhanced `tags()` function with external tag display
- Updated `useTag()` function supporting external tag switching
- Read-only enforcement for external tag operations
## Infrastructure Requirements
1. **File System Access**
- Read permissions for tasks directory
- JSON parsing capabilities
- Pattern matching and regex support
- Error handling for file system operations
2. **Backward Compatibility**
- Existing tag operations continue unchanged
- Main tasks.json structure preserved
- No breaking changes to current workflows
- Graceful degradation when external files unavailable
# Development Roadmap
## Phase 1: Core External File Discovery (Foundation)
1. **External File Scanner Implementation**
- Create `scanForExternalTaskFiles()` function in utils.js
- Implement file pattern matching for `tasks_*.json` files
- Add error handling for file system access issues
- Test with various filename patterns and edge cases
2. **Tag Name Extraction System**
- Implement `getExternalTagsFromFiles()` function
- Create regex pattern for extracting tag names from filenames
- Add validation to ensure tag names match internal tag key format
- Handle special characters and invalid filename patterns
3. **External Tag Data Reader**
- Create `readExternalTagData()` function
- Implement JSON parsing with error handling
- Add validation for required tag structure
- Ignore 'master' key in external files to prevent conflicts
## Phase 2: Tag Resolution Enhancement (Core Integration)
1. **Enhanced Tag Registry**
- Implement `getAvailableTags()` function combining main and external sources
- Create tag metadata structure including source information
- Add deduplication logic prioritizing main tags over external
- Implement caching mechanism for performance optimization
2. **Modified readJSON Function**
- Add external file fallback when tag not found in main tasks.json
- Maintain precedence rule: main tasks.json overrides external files
- Preserve existing error handling and validation patterns
- Ensure read-only access for external tags
3. **Tag Listing Enhancement**
- Update `tags()` function to display external tags with `(imported)` indicator
- Show external tag metadata and task counts
- Maintain current tag highlighting and sorting functionality
- Add visual distinction between main and external tags
## Phase 3: User Interface Integration (User Experience)
1. **Tag Switching Enhancement**
- Update `useTag()` function to support external tag switching
- Add read-only warnings when switching to external tags
- Update state.json with external tag context information
- Maintain current tag switching behavior for main tags
2. **Error Handling and User Feedback**
- Implement comprehensive error messages for malformed external files
- Add user guidance for proper external file structure
- Create warnings for read-only operations on external tags
- Ensure graceful degradation when external files are corrupted
3. **Documentation and Help Integration**
- Update command help text to include external tag information
- Add examples of external file structure and usage
- Create troubleshooting guide for common external file issues
- Document file naming conventions and best practices
## Phase 4: Advanced Features and Optimization (Enhancement)
1. **Performance Optimization**
- Implement file modification time caching
- Add lazy loading for external tag data
- Optimize file scanning for directories with many files
- Create efficient tag resolution caching mechanism
2. **Advanced External File Features**
- Support for nested external file directories
- Batch external file validation and reporting
- External file metadata display and management
- Integration with version control ignore patterns
3. **Team Collaboration Features**
- Shared external file validation
- External file conflict detection and resolution
- Team template sharing guidelines and documentation
- Integration with git workflows for template management
# Logical Dependency Chain
## Foundation Layer (Must Be Built First)
1. **External File Scanner**
- Core requirement for all other functionality
- Provides the discovery mechanism for external template files
- Must handle file system access and pattern matching reliably
2. **Tag Name Extraction**
- Depends on file scanner functionality
- Required for identifying available external tags
- Must validate tag names against internal format requirements
3. **External Tag Data Reader**
- Depends on tag name extraction
- Provides access to external tag content
- Must handle JSON parsing and validation safely
## Integration Layer (Builds on Foundation)
4. **Enhanced Tag Registry**
- Depends on all foundation components
- Combines main and external tag sources
- Required for unified tag management across the system
5. **Modified readJSON Function**
- Depends on enhanced tag registry
- Provides fallback mechanism for tag resolution
- Critical for maintaining backward compatibility
6. **Tag Listing Enhancement**
- Depends on enhanced tag registry
- Provides user visibility into external tags
- Required for user discovery of available templates
## User Experience Layer (Completes the Feature)
7. **Tag Switching Enhancement**
- Depends on modified readJSON and tag listing
- Enables user interaction with external tags
- Must enforce read-only access properly
8. **Error Handling and User Feedback**
- Can be developed in parallel with other UX components
- Enhances reliability and user experience
- Should be integrated throughout development process
9. **Documentation and Help Integration**
- Should be developed alongside implementation
- Required for user adoption and proper usage
- Can be completed in parallel with advanced features
## Optimization Layer (Performance and Advanced Features)
10. **Performance Optimization**
- Can be developed after core functionality is stable
- Improves user experience with large numbers of external files
- Not blocking for initial release
11. **Advanced External File Features**
- Can be developed independently after core features
- Enhances power user workflows
- Optional for initial release
12. **Team Collaboration Features**
- Depends on stable core functionality
- Enhances team workflows and template sharing
- Can be prioritized based on user feedback
# Risks and Mitigations
## Technical Challenges
### File System Performance
**Risk**: Scanning for external files on every tag operation could impact performance with large directories.
**Mitigation**:
- Implement file modification time caching to avoid unnecessary rescans
- Use lazy loading for external tag data - only read when accessed
- Add configurable limits on number of external files to scan
- Optimize file pattern matching with efficient regex patterns
### External File Corruption
**Risk**: Malformed or corrupted external JSON files could break tag operations.
**Mitigation**:
- Implement robust JSON parsing with comprehensive error handling
- Add file validation before attempting to parse external files
- Gracefully skip corrupted files and continue with valid ones
- Provide clear error messages guiding users to fix malformed files
### Tag Name Conflicts
**Risk**: External files might contain tag names that conflict with main tasks.json tags.
**Mitigation**:
- Implement strict precedence rule: main tasks.json always overrides external files
- Add warnings when external tags are ignored due to conflicts
- Document naming conventions to avoid common conflicts
- Provide validation tools to check for potential conflicts
## MVP Definition
### Core Feature Scope
**Risk**: Including too many advanced features could delay the core functionality.
**Mitigation**:
- Define MVP as basic external file discovery + tag switching
- Focus on the silent discovery mechanism as the primary value proposition
- Defer advanced features like nested directories and batch operations
- Ensure each phase delivers complete, usable functionality
### User Experience Complexity
**Risk**: The read-only nature of external tags might confuse users.
**Mitigation**:
- Provide clear visual indicators for external tags in all interfaces
- Add explicit warnings when users attempt to modify external tag contexts
- Document the read-only behavior and its rationale clearly
- Consider future enhancement for external tag modification workflows
### Backward Compatibility
**Risk**: Changes to tag resolution logic might break existing workflows.
**Mitigation**:
- Maintain existing tag operations unchanged for main tasks.json
- Add external file support as enhancement, not replacement
- Test thoroughly with existing task structures and workflows
- Provide migration path if any breaking changes are necessary
## Resource Constraints
### Development Complexity
**Risk**: Integration with existing tag management system could be complex.
**Mitigation**:
- Phase implementation to minimize risk of breaking existing functionality
- Create comprehensive test suite covering both main and external tag scenarios
- Use feature flags to enable/disable external file support during development
- Implement thorough error handling to prevent system failures
### File System Dependencies
**Risk**: Different operating systems might handle file operations differently.
**Mitigation**:
- Use Node.js built-in file system APIs for cross-platform compatibility
- Test on multiple operating systems (Windows, macOS, Linux)
- Handle file path separators and naming conventions properly
- Add fallback mechanisms for file system access issues
### User Adoption
**Risk**: Users might not understand or adopt the external file template system.
**Mitigation**:
- Create clear documentation with practical examples
- Provide sample external template files for common use cases
- Integrate help and guidance directly into the CLI interface
- Gather user feedback early and iterate on the user experience
# Appendix
## External File Naming Convention
### Filename Pattern
- **Format**: `tasks_[tagname].json`
- **Examples**: `tasks_feature-auth.json`, `tasks_v2-migration.json`, `tasks_project-alpha.json`
- **Validation**: Tag name must match internal tag key format (alphanumeric, hyphens, underscores)
### File Structure Requirements
```json
{
"meta": {
"projectName": "Required: Human-readable project name",
"version": "Optional: Template version",
"templateSource": "Optional: Source identifier",
"createdAt": "Optional: ISO-8601 timestamp"
},
"tags": {
"[tagname]": {
"meta": {
"name": "Required: Tag display name",
"description": "Optional: Tag description",
"createdAt": "Optional: ISO-8601 timestamp"
},
"tasks": [
// Required: Array of task objects following standard task structure
]
}
}
}
```
## Implementation Functions Specification
### Core Discovery Functions
```javascript
// Scan tasks directory for external template files
function scanForExternalTaskFiles(projectRoot) {
// Returns: Array of external file paths
}
// Extract tag names from external filenames
function getExternalTagsFromFiles(projectRoot) {
// Returns: Array of external tag names
}
// Read specific external tag data
function readExternalTagData(projectRoot, tagName) {
// Returns: Tag data object or null if not found
}
// Get combined main and external tags
function getAvailableTags(projectRoot) {
// Returns: Combined tag registry with metadata
}
```
### Integration Points
```javascript
// Enhanced readJSON with external fallback
function readJSON(projectRoot, tag = null) {
// Modified to check external files when tag not found in main
}
// Enhanced tags listing with external indicators
function tags(projectRoot, options = {}) {
// Modified to display external tags with (imported) suffix
}
// Enhanced tag switching with external support
function useTag(projectRoot, tagName) {
// Modified to support switching to external tags (read-only)
}
```
## Error Handling Specifications
### File System Errors
- **ENOENT**: External file not found - gracefully skip and continue
- **EACCES**: Permission denied - warn user and continue with available files
- **EISDIR**: Directory instead of file - skip and continue scanning
### JSON Parsing Errors
- **SyntaxError**: Malformed JSON - skip file and log warning with filename
- **Missing required fields**: Skip file and provide specific error message
- **Invalid tag structure**: Skip file and guide user to correct format
### Tag Conflict Resolution
- **Duplicate tag names**: Main tasks.json takes precedence, log warning
- **Invalid tag names**: Skip external file and provide naming guidance
- **Master key in external**: Ignore master key, process other tags normally
</PRD>

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

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

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{
"meta": {
"generatedAt": "2025-08-02T14:28:59.851Z",
"tasksAnalyzed": 1,
"totalTasks": 93,
"analysisCount": 1,
"thresholdScore": 5,
"projectName": "Taskmaster",
"usedResearch": false
},
"complexityAnalysis": [
{
"taskId": 24,
"taskTitle": "Implement AI-Powered Test Generation Command",
"complexityScore": 8,
"recommendedSubtasks": 6,
"expansionPrompt": "Expand task 24 'Implement AI-Powered Test Generation Command' into 6 subtasks, focusing on: 1) Command structure implementation, 2) AI prompt engineering for test generation, 3) Test file generation and output, 4) Framework-specific template implementation, 5) MCP tool integration, and 6) Documentation and help system integration. Include detailed implementation steps, dependencies, and testing approaches for each subtask.",
"reasoning": "This task has high complexity due to several challenging aspects: 1) AI integration requiring sophisticated prompt engineering, 2) Test generation across multiple frameworks, 3) File system operations with proper error handling, 4) MCP tool integration, 5) Complex configuration requirements, and 6) Framework-specific template generation. The task already has 5 subtasks but could benefit from reorganization based on the updated implementation details in the info blocks, particularly around framework support and configuration."
}
]
}

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{
"meta": {
"generatedAt": "2025-07-22T09:41:10.517Z",
"tasksAnalyzed": 10,
"totalTasks": 10,
"analysisCount": 10,
"thresholdScore": 5,
"projectName": "Taskmaster",
"usedResearch": false
},
"complexityAnalysis": [
{
"taskId": 1,
"taskTitle": "Implement Task Integration Layer (TIL) Core",
"complexityScore": 8,
"recommendedSubtasks": 5,
"expansionPrompt": "Break down the TIL Core implementation into distinct components: hook registration system, task lifecycle management, event coordination, state persistence layer, and configuration validation. Each subtask should focus on a specific architectural component with clear interfaces and testable boundaries.",
"reasoning": "This is a foundational component with multiple complex subsystems including event-driven architecture, API integration, state management, and configuration validation. The existing 5 subtasks are well-structured and appropriately sized."
},
{
"taskId": 2,
"taskTitle": "Develop Dependency Monitor with Taskmaster MCP Integration",
"complexityScore": 7,
"recommendedSubtasks": 4,
"expansionPrompt": "Divide the dependency monitor into: dependency graph data structure implementation, circular dependency detection algorithm, Taskmaster MCP integration layer, and real-time notification system. Focus on performance optimization for large graphs and efficient caching strategies.",
"reasoning": "Complex graph algorithms and real-time monitoring require careful implementation. The task involves sophisticated data structures, algorithm design, and API integration with performance constraints."
},
{
"taskId": 3,
"taskTitle": "Build Execution Manager with Priority Queue and Parallel Execution",
"complexityScore": 8,
"recommendedSubtasks": 5,
"expansionPrompt": "Structure the execution manager into: priority queue implementation, resource conflict detection system, parallel execution coordinator, timeout and cancellation handler, and execution history persistence layer. Each component should handle specific aspects of concurrent task management.",
"reasoning": "Managing concurrent execution with resource conflicts, priority scheduling, and persistence is highly complex. Requires careful synchronization, error handling, and performance optimization."
},
{
"taskId": 4,
"taskTitle": "Implement Safety Manager with Configurable Constraints and Emergency Controls",
"complexityScore": 7,
"recommendedSubtasks": 4,
"expansionPrompt": "Break down into: constraint validation engine, emergency control system (stop/pause), user approval workflow implementation, and safety monitoring/audit logging. Each subtask should address specific safety aspects with fail-safe mechanisms.",
"reasoning": "Safety systems require careful design with multiple fail-safes. The task involves validation logic, real-time controls, workflow management, and comprehensive logging."
},
{
"taskId": 5,
"taskTitle": "Develop Event-Based Hook Processor",
"complexityScore": 6,
"recommendedSubtasks": 4,
"expansionPrompt": "Organize into: file system event integration, Git/VCS event listeners, build system event connectors, and event filtering/debouncing mechanism. Focus on modular event source integration with configurable processing pipelines.",
"reasoning": "While conceptually straightforward, integrating multiple event sources with proper filtering and performance optimization requires careful implementation. Each event source has unique characteristics."
},
{
"taskId": 6,
"taskTitle": "Implement Prompt-Based Hook Processor with AI Integration",
"complexityScore": 7,
"recommendedSubtasks": 4,
"expansionPrompt": "Divide into: prompt interception mechanism, NLP-based task suggestion engine, context injection system, and conversation-based status updater. Each component should handle specific aspects of AI conversation integration.",
"reasoning": "AI integration with prompt analysis and dynamic context injection is complex. Requires understanding of conversation flow, relevance scoring, and seamless integration with existing systems."
},
{
"taskId": 7,
"taskTitle": "Create Update-Based Hook Processor for Automatic Progress Tracking",
"complexityScore": 6,
"recommendedSubtasks": 4,
"expansionPrompt": "Structure as: code change monitor, acceptance criteria validator, dependency update propagator, and conflict detection/resolution system. Focus on accurate progress tracking and automated validation logic.",
"reasoning": "Automatic progress tracking requires integration with version control and intelligent analysis of code changes. Conflict detection and dependency propagation add complexity."
},
{
"taskId": 8,
"taskTitle": "Develop Real-Time Automation Dashboard and User Controls",
"complexityScore": 7,
"recommendedSubtasks": 5,
"expansionPrompt": "Break down into: WebSocket real-time communication layer, interactive dependency graph visualization, task queue and status displays, user control interfaces, and analytics/charting components. Each UI component should be modular and reusable.",
"reasoning": "Building a responsive real-time dashboard with complex visualizations and interactive controls is challenging. Requires careful state management, performance optimization, and user experience design."
},
{
"taskId": 9,
"taskTitle": "Integrate Kiro IDE and Taskmaster MCP with Core Services",
"complexityScore": 8,
"recommendedSubtasks": 4,
"expansionPrompt": "Organize into: KiroHookAdapter implementation, TaskmasterMCPAdapter development, error handling and retry logic layer, and IDE UI component integration. Focus on robust adapter patterns and comprehensive error recovery.",
"reasoning": "End-to-end integration of multiple systems with different architectures is highly complex. Requires careful adapter design, extensive error handling, and thorough testing across all integration points."
},
{
"taskId": 10,
"taskTitle": "Implement Configuration Management and Safety Profiles",
"complexityScore": 6,
"recommendedSubtasks": 4,
"expansionPrompt": "Divide into: visual configuration editor UI, JSON Schema validation engine, import/export functionality, and version control integration. Each component should provide intuitive configuration management with robust validation.",
"reasoning": "While technically less complex than core systems, building an intuitive configuration editor with validation, versioning, and import/export requires careful UI/UX design and robust data handling."
}
]
}

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@@ -1,53 +0,0 @@
{
"meta": {
"generatedAt": "2025-06-13T06:52:00.611Z",
"tasksAnalyzed": 5,
"totalTasks": 5,
"analysisCount": 5,
"thresholdScore": 5,
"projectName": "Taskmaster",
"usedResearch": true
},
"complexityAnalysis": [
{
"taskId": 1,
"taskTitle": "Setup Project Repository and Node.js Environment",
"complexityScore": 4,
"recommendedSubtasks": 6,
"expansionPrompt": "Break down the setup process into subtasks such as initializing npm, creating directory structure, installing dependencies, configuring package.json, adding configuration files, and setting up the main entry point.",
"reasoning": "This task involves several standard setup steps that are well-defined and sequential, with low algorithmic complexity but moderate procedural detail. Each step is independent and can be assigned as a subtask, making the overall complexity moderate."
},
{
"taskId": 2,
"taskTitle": "Implement Core Functionality and CLI Interface",
"complexityScore": 7,
"recommendedSubtasks": 7,
"expansionPrompt": "Expand into subtasks for implementing main logic, designing CLI commands, creating the CLI entry point, integrating business logic, adding error handling, formatting output, and ensuring CLI executability.",
"reasoning": "This task requires both application logic and user interface (CLI) development, including error handling and integration. The need to coordinate between core logic and CLI, plus ensuring usability, increases complexity and warrants detailed subtasking."
},
{
"taskId": 3,
"taskTitle": "Implement Testing Suite and Validation",
"complexityScore": 6,
"recommendedSubtasks": 6,
"expansionPrompt": "Divide into subtasks for configuring Jest, writing unit tests, writing integration tests, testing CLI commands, setting up coverage reporting, and preparing test fixtures/mocks.",
"reasoning": "Comprehensive testing involves multiple types of tests and configuration steps. While each is straightforward, the breadth of coverage and need for automation and validation increases the overall complexity."
},
{
"taskId": 4,
"taskTitle": "Setup Node.js Project with CLI Interface",
"complexityScore": 5,
"recommendedSubtasks": 7,
"expansionPrompt": "Break down into subtasks for npm initialization, package.json setup, directory structure creation, dependency installation, CLI entry point creation, package.json bin configuration, and CLI executability.",
"reasoning": "This task combines project setup with initial CLI implementation. While each step is standard, the integration of CLI elements adds a layer of complexity beyond a basic setup."
},
{
"taskId": 5,
"taskTitle": "Implement Core Functionality with Testing",
"complexityScore": 8,
"recommendedSubtasks": 8,
"expansionPrompt": "Expand into subtasks for implementing each feature (A, B, C), setting up the testing framework, writing tests for each feature, integrating CLI with core logic, and adding coverage reporting.",
"reasoning": "This task requires simultaneous development of multiple features, integration with CLI, and comprehensive testing. The coordination and depth required for both implementation and validation make it the most complex among the listed tasks."
}
]
}

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

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

9
.taskmaster/state.json
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@@ -1,9 +0,0 @@
{
"currentTag": "master",
"lastSwitched": "2025-09-12T22:25:27.535Z",
"branchTagMapping": {
"v017-adds": "v017-adds",
"next": "next"
},
"migrationNoticeShown": true
}

34
.taskmaster/tasks/task_001_tm-start.txt
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# Task ID: 1
# Title: Create start command class structure
# Status: pending
# Dependencies: None
# Priority: high
# Description: Create the basic structure for the start command following the Commander class pattern
# Details:
Create a new file `apps/cli/src/commands/start.command.ts` based on the existing list.command.ts pattern. Implement the command class with proper command registration, description, and argument handling for the task_id parameter. The class should extend the base Command class and implement the required methods.
Example structure:
```typescript
import { Command } from 'commander';
import { BaseCommand } from './base.command';
export class StartCommand extends BaseCommand {
public register(program: Command): void {
program
.command('start')
.alias('tm start')
.description('Start implementing a task using claude-code')
.argument('<task_id>', 'ID of the task to start')
.action(async (taskId: string) => {
await this.execute(taskId);
});
}
public async execute(taskId: string): Promise<void> {
// Implementation will be added in subsequent tasks
}
}
```
# Test Strategy:
Verify the command registers correctly by running the CLI with --help and checking that the start command appears with proper description and arguments. Test the basic structure by ensuring the command can be invoked without errors.

26
.taskmaster/tasks/task_002_tm-start.txt
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@@ -1,26 +0,0 @@
# Task ID: 2
# Title: Register start command in CLI
# Status: pending
# Dependencies: 7
# Priority: high
# Description: Register the start command in the CLI application
# Details:
Update the CLI application to register the new start command. This involves importing the StartCommand class and adding it to the commands array in the CLI initialization.
In `apps/cli/src/index.ts` or the appropriate file where commands are registered:
```typescript
import { StartCommand } from './commands/start.command';
// Add StartCommand to the commands array
const commands = [
// ... existing commands
new StartCommand(),
];
// Register all commands
commands.forEach(command => command.register(program));
```
# Test Strategy:
Verify the command is correctly registered by running the CLI with --help and checking that the start command appears in the list of available commands.

32
.taskmaster/tasks/task_003_tm-start.txt
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@@ -1,32 +0,0 @@
# Task ID: 3
# Title: Create standardized prompt builder
# Status: pending
# Dependencies: 1
# Priority: medium
# Description: Implement a function to build the standardized prompt for claude-code based on the task details
# Details:
Create a function in the StartCommand class that builds the standardized prompt according to the template provided in the PRD. The prompt should include instructions for Claude to first run `tm show <task_id>` to get task details, and then implement the required changes.
```typescript
private buildPrompt(taskId: string): string {
return `You are an AI coding assistant with access to this repository's codebase.
First, run this command to get the task details:
tm show ${taskId}
Then implement the task with these requirements:
- Make the SMALLEST number of code changes possible
- Follow ALL existing patterns in the codebase (you have access to analyze the code)
- Do NOT over-engineer the solution
- Use existing files/functions/patterns wherever possible
- When complete, print: COMPLETED: <brief summary of changes>
Begin by running tm show ${taskId} to understand what needs to be implemented.`;
}
```
<info added on 2025-09-12T02:40:01.812Z>
The prompt builder function will handle task context retrieval by instructing Claude to use the task-master show command. This approach ensures Claude has access to all necessary task details before implementation begins. The command syntax "tm show ${taskId}" embedded in the prompt will direct Claude to first gather the complete task context, including description, requirements, and any existing implementation details, before proceeding with code changes.
</info added on 2025-09-12T02:40:01.812Z>
# Test Strategy:
Verify the prompt is correctly formatted by calling the function with a sample task ID and checking that the output matches the expected template with the task ID properly inserted.

36
.taskmaster/tasks/task_004_tm-start.txt
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@@ -1,36 +0,0 @@
# Task ID: 4
# Title: Implement claude-code executor
# Status: pending
# Dependencies: 3
# Priority: high
# Description: Add functionality to execute the claude-code command with the built prompt
# Details:
Implement the functionality to execute the claude command with the built prompt. This should use Node.js child_process.exec() to run the command directly in the terminal.
```typescript
import { exec } from 'child_process';
// Inside execute method, after task validation
private async executeClaude(prompt: string): Promise<void> {
console.log('Starting claude-code to implement the task...');
try {
// Execute claude with the prompt
const claudeCommand = `claude "${prompt.replace(/"/g, '\\"')}"`;
// Use execSync to wait for the command to complete
const { execSync } = require('child_process');
execSync(claudeCommand, { stdio: 'inherit' });
console.log('Claude session completed.');
} catch (error) {
console.error('Error executing claude-code:', error.message);
process.exit(1);
}
}
```
Then call this method from the execute method after building the prompt.
# Test Strategy:
Test by running the command with a valid task ID and verifying that the claude command is executed with the correct prompt. Check that the command handles errors appropriately if claude-code is not available.

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