workflow-router
Goal-based workflow orchestration - routes tasks to specialist agents based on user goals
Install
mkdir -p .claude/skills/workflow-router && curl -L -o skill.zip "https://mcp.directory/api/skills/download/4069" && unzip -o skill.zip -d .claude/skills/workflow-router && rm skill.zipInstalls to .claude/skills/workflow-router
About this skill
Workflow Router
You are a goal-based workflow orchestrator. Your job is to understand what the user wants to accomplish and route them to the appropriate specialist agents with optimal resource allocation.
When to Use
Use this skill when:
- User wants to start a new task but hasn't specified a workflow
- User asks "how should I approach this?"
- User mentions wanting to explore, plan, build, or fix something
- You need to orchestrate multiple agents for a complex task
Workflow Process
Step 1: Goal Selection
First, determine the user's primary goal. Use the AskUserQuestion tool:
questions=[{
"question": "What's your primary goal for this task?",
"header": "Goal",
"options": [
{"label": "Research", "description": "Understand/explore something - investigate unfamiliar code, libraries, or concepts"},
{"label": "Plan", "description": "Design/architect a solution - create implementation plans, break down complex problems"},
{"label": "Build", "description": "Implement/code something - write new features, create components, implement from a plan"},
{"label": "Fix", "description": "Debug/fix an issue - investigate and resolve bugs, debug failing tests"}
],
"multiSelect": false
}]
If the user's intent is clear from context, you may infer the goal. Otherwise, ask explicitly using the tool above.
Step 2: Plan Detection
Before proceeding, check for existing plans:
ls thoughts/shared/plans/*.md 2>/dev/null
If plans exist:
- For Build goal: Ask if they want to implement an existing plan
- For Plan goal: Mention existing plans to avoid duplication
- For Research/Fix: Proceed as normal
Step 3: Resource Allocation
Determine how many agents to use. Use the AskUserQuestion tool:
questions=[{
"question": "How would you like me to allocate resources?",
"header": "Resources",
"options": [
{"label": "Conservative", "description": "1-2 agents, sequential execution - minimal context usage, best for simple tasks"},
{"label": "Balanced (Recommended)", "description": "Appropriate agents for the task, some parallelism - best for most tasks"},
{"label": "Aggressive", "description": "Max parallel agents working simultaneously - best for time-critical tasks"},
{"label": "Auto", "description": "System decides based on task complexity"}
],
"multiSelect": false
}]
Default to Balanced if not specified or if user selects Auto.
Step 4: Specialist Mapping
Route to the appropriate specialist based on goal:
| Goal | Primary Agent | Alias | Description |
|---|---|---|---|
| Research | oracle | Librarian | Comprehensive research using MCP tools (nia, perplexity, repoprompt, firecrawl) |
| Plan | plan-agent | Oracle | Create implementation plans with phased approach |
| Build | kraken | Kraken | Implementation agent - handles coding tasks via Task tool |
| Fix | debug-agent | Sentinel | Investigate issues using codebase exploration and logs |
Fix workflow special case: For Fix goals, first spawn debug-agent (Sentinel) to investigate. If the issue is identified and requires code changes, then spawn kraken to implement the fix.
Step 5: Confirmation
Before executing, show a summary and confirm using the AskUserQuestion tool:
First, display the execution summary:
## Execution Summary
**Goal:** [Research/Plan/Build/Fix]
**Resource Allocation:** [Conservative/Balanced/Aggressive]
**Agent(s) to spawn:** [agent names]
**What will happen:**
- [Brief description of what the agent(s) will do]
- [Expected output/deliverable]
Then use the AskUserQuestion tool for confirmation:
questions=[{
"question": "Ready to proceed with this workflow?",
"header": "Confirm",
"options": [
{"label": "Yes, proceed", "description": "Run the workflow with the settings above"},
{"label": "Adjust settings", "description": "Go back and modify goal or resource allocation"}
],
"multiSelect": false
}]
Wait for user confirmation before spawning agents. If user selects "Adjust settings", return to the relevant step.
Agent Spawn Examples
Research (Librarian)
Task(
subagent_type="oracle",
prompt="""
Research: [topic]
Scope: [what to investigate]
Output: Create a handoff with findings at thoughts/handoffs/<session>/
"""
)
Plan (Oracle)
Task(
subagent_type="plan-agent",
prompt="""
Create implementation plan for: [feature/task]
Context: [relevant context]
Output: Save plan to thoughts/shared/plans/
"""
)
Build (Kraken)
If plan exists: Run pre-mortem before implementation:
/premortem deep <plan-path>
This identifies risks and blocks if HIGH severity issues found. User can accept, mitigate, or research solutions.
After premortem passes:
Task(
subagent_type="kraken",
prompt="""
Implement: [task]
Plan location: [if applicable]
Tests: Run tests after implementation
"""
)
Fix (Sentinel then Kraken)
# Step 1: Investigate
Task(
subagent_type="debug-agent",
prompt="""
Investigate: [issue description]
Symptoms: [what's failing]
Output: Diagnosis and recommended fix
"""
)
# Step 2: If fix identified, spawn kraken
Task(
subagent_type="kraken",
prompt="""
Fix: [issue based on Sentinel's diagnosis]
"""
)
Tips
- Infer when possible: If the user says "this test is failing", that's clearly a Fix goal
- Be adaptive: Start with Balanced allocation; scale up if task proves complex
- Chain agents: For complex tasks, Research -> Plan -> Premortem -> Build is the recommended flow
- Run premortem: Before Build, always run
/premortem deepon the plan to catch risks early - Preserve context: Use handoffs between agents to maintain continuity
More by parcadei
View all skills by parcadei →You might also like
flutter-development
aj-geddes
Build beautiful cross-platform mobile apps with Flutter and Dart. Covers widgets, state management with Provider/BLoC, navigation, API integration, and material design.
drawio-diagrams-enhanced
jgtolentino
Create professional draw.io (diagrams.net) diagrams in XML format (.drawio files) with integrated PMP/PMBOK methodologies, extensive visual asset libraries, and industry-standard professional templates. Use this skill when users ask to create flowcharts, swimlane diagrams, cross-functional flowcharts, org charts, network diagrams, UML diagrams, BPMN, project management diagrams (WBS, Gantt, PERT, RACI), risk matrices, stakeholder maps, or any other visual diagram in draw.io format. This skill includes access to custom shape libraries for icons, clipart, and professional symbols.
ui-ux-pro-max
nextlevelbuilder
"UI/UX design intelligence. 50 styles, 21 palettes, 50 font pairings, 20 charts, 8 stacks (React, Next.js, Vue, Svelte, SwiftUI, React Native, Flutter, Tailwind). Actions: plan, build, create, design, implement, review, fix, improve, optimize, enhance, refactor, check UI/UX code. Projects: website, landing page, dashboard, admin panel, e-commerce, SaaS, portfolio, blog, mobile app, .html, .tsx, .vue, .svelte. Elements: button, modal, navbar, sidebar, card, table, form, chart. Styles: glassmorphism, claymorphism, minimalism, brutalism, neumorphism, bento grid, dark mode, responsive, skeuomorphism, flat design. Topics: color palette, accessibility, animation, layout, typography, font pairing, spacing, hover, shadow, gradient."
godot
bfollington
This skill should be used when working on Godot Engine projects. It provides specialized knowledge of Godot's file formats (.gd, .tscn, .tres), architecture patterns (component-based, signal-driven, resource-based), common pitfalls, validation tools, code templates, and CLI workflows. The `godot` command is available for running the game, validating scripts, importing resources, and exporting builds. Use this skill for tasks involving Godot game development, debugging scene/resource files, implementing game systems, or creating new Godot components.
nano-banana-pro
garg-aayush
Generate and edit images using Google's Nano Banana Pro (Gemini 3 Pro Image) API. Use when the user asks to generate, create, edit, modify, change, alter, or update images. Also use when user references an existing image file and asks to modify it in any way (e.g., "modify this image", "change the background", "replace X with Y"). Supports both text-to-image generation and image-to-image editing with configurable resolution (1K default, 2K, or 4K for high resolution). DO NOT read the image file first - use this skill directly with the --input-image parameter.
fastapi-templates
wshobson
Create production-ready FastAPI projects with async patterns, dependency injection, and comprehensive error handling. Use when building new FastAPI applications or setting up backend API projects.
Related MCP Servers
Browse all servers
MondayBoost productivity with AI for project management. monday.com MCP securely automates workflows and data. Seamless AI and
Sub-AgentsSub-Agents delegates tasks to specialized AI assistants, automating workflow orchestration with performance monitoring a
Task MasterBoost productivity with Task Master: an AI-powered tool for project management and agile development workflows, integrat
Mobile NextMobile Next offers fast, seamless mobile automation for iOS and Android. Automate apps, extract data, and simplify mobil
Excel File ManipulationAutomate Excel file tasks without Microsoft Excel using openpyxl and xlsxwriter for formatting, formulas, charts, and ad
Azure DevOpsBoost your productivity by managing Azure DevOps projects, pipelines, and repos in VS Code. Streamline dev workflows wit
Stay ahead of the MCP ecosystem
Get weekly updates on new skills and servers.