Purpose
This skill transforms raw, unstructured user prompts into highly optimized prompts using established prompting frameworks. It analyzes user intent, identifies task complexity, and intelligently selects the most appropriate framework(s) to maximize Claude/ChatGPT output quality.
The skill operates in "magic mode" - it works silently behind the scenes, only interacting with users when clarification is critically needed. Users receive polished, ready-to-use prompts without technical explanations or framework jargon.
This is a universal skill that works in any terminal context, not limited to Obsidian vaults or specific project structures.
When to Use
Invoke this skill when:
- User provides a vague or generic prompt (e.g., "help me code Python")
- User has a complex idea but struggles to articulate it clearly
- User's prompt lacks structure, context, or specific requirements
- Task requires step-by-step reasoning (debugging, analysis, design)
- User needs a prompt for a specific AI task but doesn't know prompting frameworks
- User wants to improve an existing prompt's effectiveness
- User asks variations of "how do I ask AI to..." or "create a prompt for..."
Workflow
Step 1: Analyze Intent
Objective: Understand what the user truly wants to accomplish.
Actions:
- Read the raw prompt provided by the user
- Detect task characteristics:
- Type: coding, writing, analysis, design, learning, planning, decision-making, creative, etc.
- Complexity: simple (one-step), moderate (multi-step), complex (requires reasoning/design)
- Clarity: clear intention vs. ambiguous/vague
- Domain: technical, business, creative, academic, personal, etc.
- Identify implicit requirements:
- Does user need examples?
- Is output format specified?
- Are there constraints (time, resources, scope)?
- Is this exploratory or execution-focused?
Detection Patterns:
- Simple tasks: Short prompts (<50 chars), single verb, no context
- Complex tasks: Long prompts (>200 chars), multiple requirements, conditional logic
- Ambiguous tasks: Generic verbs ("help", "improve"), missing object/context
- Structured tasks: Mentions steps, phases, deliverables, stakeholders
Step 2: Ask Clarifying Questions (Conditional)
Objective: Gather missing information only when it is critical to framework selection or prompt quality.
Trigger Conditions — ask only if:
- Task type is completely ambiguous (cannot determine coding vs. writing vs. analysis)
- Target audience is unknown and materially affects the output
- Scope is undefined and choosing wrong scope would invalidate the prompt
- Requested output format conflicts or is missing and cannot be inferred
Question Limits:
- Maximum 3 questions per invocation
- Combine related questions into one when possible
- If enough context exists, skip this step entirely (most cases)
Example Clarifying Exchange:
User: "help me with AI"
Step 2 (triggered — task type ambiguous):
"To craft the best prompt, I need one quick clarification:
1. What do you want to do with AI — build something, learn about it, or use an AI tool for a task?"
Critical Rule: When in doubt, skip clarification and generate the best prompt with available context. Over-asking breaks the "magic mode" experience.
Step 3: Select Framework(s)
Objective: Map task characteristics to optimal prompting framework(s).
Framework Mapping Logic:
| Task Type | Recommended Framework(s) | Rationale |
|---|---|---|
| Role-based tasks (act as expert, consultant) | RTF (Role-Task-Format) | Clear role definition + task + output format |
| Step-by-step reasoning (debugging, proof, logic) | Chain of Thought | Encourages explicit reasoning steps |
| Structured projects (multi-phase, deliverables) | RISEN (Role, Instructions, Steps, End goal, Narrowing) | Comprehensive structure for complex work |
| Complex design/analysis (systems, architecture) | RODES (Role, Objective, Details, Examples, Sense check) | Balances detail with validation |
| Summarization (compress, synthesize) | Chain of Density | Iterative refinement to essential info |
| Communication (reports, presentations, storytelling) | RACE (Role, Audience, Context, Expectation) | Audience-aware messaging |
| Investigation/analysis (research, diagnosis) | RISE (Research, Investigate, Synthesize, Evaluate) | Systematic analytical approach |
| Contextual situations (problem-solving with background) | STAR (Situation, Task, Action, Result) | Context-rich problem framing |
| Documentation (medical, technical, records) | SOAP (Subjective, Objective, Assessment, Plan) | Structured information capture |
| Goal-setting (OKRs, objectives, targets) | CLEAR (Collaborative, Limited, Emotional, Appreciable, Refinable) | Goal clarity and actionability |
| Coaching/development (mentoring, growth) | GROW (Goal, Reality, Options, Will) | Developmental conversation structure |
Blending Strategy:
- Combine 2-3 frameworks when task spans multiple types
- Example: Complex technical project → RODES + Chain of Thought (structure + reasoning)
- Example: Leadership decision → CLEAR + GROW (goal clarity + development)
Selection Criteria:
- Primary framework = best match to core task type
- Secondary framework(s) = address additional complexity dimensions
- Avoid over-engineering: simple tasks get simple frameworks
Critical Rule: This selection happens silently - do not explain framework choice to user.
Role: You are a senior software architect. [RTF - Role]
Objective: Design a microservices architecture for [system]. [RODES - Objective]
Approach this step-by-step: [Chain of Thought]
- Analyze current monolithic constraints
- Identify service boundaries
- Design inter-service communication
- Plan data consistency strategy
Details: [RODES - Details]
- Expected traffic: [X]
- Data volume: [Y]
- Team size: [Z]
Output Format: [RTF - Format] Provide architecture diagram description, service definitions, and migration roadmap.
Sense Check: [RODES - Sense check] Validate that services are loosely coupled, independently deployable, and aligned with business domains.
**4.5. Language Adaptation**
- If original prompt is in Portuguese, generate prompt in Portuguese
- If original prompt is in English, generate prompt in English
- If mixed, default to English (more universal for AI models)
**4.6. Quality Checks**
Before finalizing, verify:
- [ ] Prompt is self-contained (no external context needed)
- [ ] Task is specific and measurable
- [ ] Output format is clear
- [ ] No ambiguous language
- [ ] Appropriate level of detail for task complexity
## Critical Rules
### **NEVER:**
- ❌ Assume information that wasn't provided - ALWAYS ask if critical details are missing
- ❌ Explain which framework was selected or why (magic mode - keep it invisible)
- ❌ Generate generic, one-size-fits-all prompts - always customize to context
- ❌ Use technical jargon in the final prompt (unless user's domain is technical)
- ❌ Ask more than 3 clarifying questions (avoid user fatigue)
- ❌ Include meta-commentary in the output ("This prompt uses...", "Note that...")
- ❌ Present output without code block formatting
- ❌ Mix languages inconsistently (if user writes in PT, respond in PT)
### **ALWAYS:**
- ✅ Analyze intent before generating (Step 1 is mandatory)
- ✅ Ask clarifying questions if critical information is ambiguous (Step 2 conditional)
- ✅ Select framework(s) based on task type and complexity (Step 3 mapping)
- ✅ Blend multiple frameworks when it improves prompt quality
- ✅ Adapt prompt length to original input complexity (simple → short, complex → detailed)
- ✅ Include output format specification in generated prompts
- ✅ Present final prompt in clean Markdown code block
- ✅ Make prompts self