407 lines
12 KiB
Markdown
407 lines
12 KiB
Markdown
---
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name: architecture-design
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description: Generate comprehensive software architecture documentation (ARCHITECTURE.md) with C4 diagrams, OpenAPI specs, and technology-specific guidance. This skill should be used when creating architecture documentation for new projects, documenting existing systems, or updating architectural specifications.
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---
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# Architecture Design
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Generate professional software architecture documentation with visual diagrams and API specifications through structured interviews. Create complete ARCHITECTURE.md files covering all required sections with technology-specific patterns, C4 model diagrams, and OpenAPI 3.0 specifications.
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## Core Workflow
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### Step 1: Assess Project Type
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Determine the project type by asking the user:
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- **New project?** Gather requirements and design architecture
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- **Existing system?** Document current state
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- **Update needed?** Identify changed components
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### Step 2: Gather Essential Information
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Conduct a brief interview (5-7 questions maximum) to collect:
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1. **Architecture pattern:** Monolith, microservices, or serverless?
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2. **Primary technology:** Node.js, Python, Java, or other?
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3. **Key components:** Main services or modules?
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4. **Data stores:** Databases and caches?
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5. **Cloud provider:** AWS, GCP, Azure, or on-premise?
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6. **Deployment:** How is it deployed?
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7. **External integrations:** Third-party services?
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### Step 3: Select Template and Load References
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**Choose template based on architecture pattern:**
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- Monolith → Use `assets/ARCHITECTURE-monolith.md`
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- Microservices → Use `assets/ARCHITECTURE-microservices.md`
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- Uncertain → Use `assets/ARCHITECTURE.md`
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**Load technology-specific references:**
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- Node.js projects → Load `references/nodejs.md` for Express, NestJS, Fastify patterns
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- Python projects → Load `references/python.md` for Django, Flask, FastAPI patterns
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- Java projects → Load `references/java.md` for Spring Boot, Jakarta EE patterns
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**Load pattern-specific references when applicable:**
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- Microservices → Load `references/microservices.md` for service boundaries and communication patterns
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- Serverless → Load `references/serverless.md` for function organization and event sources
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### Step 4: Generate System Diagram
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Generate appropriate diagrams using `scripts/generate_diagram.py`:
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**For monolithic architectures:**
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```bash
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python scripts/generate_diagram.py layered
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```
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**For microservices architectures:**
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```bash
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python scripts/generate_diagram.py flow
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```
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**For simple systems:**
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```bash
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python scripts/generate_diagram.py simple
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```
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Customize diagrams with JSON configuration for specific components.
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### Step 5: Populate Template
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Complete the template sections in the specified order:
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1. **Project Identification (Section 10)** - Add project name, repository, contact, date
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2. **Project Structure (Section 1)** - Define directory layout
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3. **System Diagram (Section 2)** - Insert generated diagram
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4. **Core Components (Section 3)** - Document components from interview
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5. **Data Stores (Section 4)** - Describe databases and caches
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6. **External Integrations (Section 5)** - List third-party services
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7. **Deployment (Section 6)** - Detail infrastructure setup
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8. **Security (Section 7)** - Specify authentication and encryption
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9. **Development (Section 8)** - Outline setup and testing procedures
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10. **Future Considerations (Section 9)** - Document roadmap items
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11. **Glossary (Section 11)** - Define domain terminology
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Apply technology-specific patterns from loaded references to enhance each section.
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### Step 6: Validate
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Execute the validation script to ensure quality:
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```bash
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python scripts/validate_architecture.py ARCHITECTURE.md
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```
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Address any issues or warnings before delivering the documentation.
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## Interview Best Practices
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**Maintain focused questioning:**
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- Ask 2-3 questions at a time
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- Build upon previous answers
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- Skip redundant questions
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**Adapt communication style:**
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- Technical users: Use precise terminology
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- Non-technical users: Simplify language
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- Uncertain users: Offer defaults or placeholders
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**Handle information gaps:**
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- Mark uncertain items for review
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- Add [TODO] for missing information
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- Suggest reasonable defaults based on context
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## Technology-Specific Guidance
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### Reference Loading Guidelines
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**Load `references/nodejs.md` for:**
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- Express, NestJS, Fastify projects
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- Node.js microservices
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- Serverless Node functions
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**Load `references/python.md` for:**
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- Django, Flask, FastAPI projects
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- Python microservices
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- Data pipelines and ML systems
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**Load `references/java.md` for:**
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- Spring Boot applications
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- Jakarta EE systems
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- Java microservices
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**Load `references/workflows.md` for:**
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- Complex interview scenarios
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- Detailed process guidance
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- Documentation update workflows
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### Applying Technology Patterns
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After loading references, apply the patterns to enhance:
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- Project structure recommendations
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- Deployment configurations
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- Framework-specific best practices
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- Common library suggestions
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- Testing strategies and approaches
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## Pattern-Specific Guidance
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### Microservices Architecture
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**Load `references/microservices.md` and include these elements:**
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- Service boundaries and responsibilities
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- Communication patterns (synchronous vs asynchronous)
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- API gateway configuration
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- Service discovery mechanism
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- Data management approach
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- Observability and monitoring setup
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**Use the microservices template** (`assets/ARCHITECTURE-microservices.md`) for proper structure.
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### Serverless Architecture
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**Load `references/serverless.md` and include these elements:**
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- Function organization and boundaries
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- Event sources and triggers
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- State management approach
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- Cold start mitigation techniques
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- Cost optimization strategies
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### Monolithic Architecture
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**Use the monolith template** (`assets/ARCHITECTURE-monolith.md`) and emphasize:
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- Layered architecture patterns
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- Module organization principles
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- Potential future refactoring paths
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- Scaling strategy and approaches
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## Diagram Generation Examples
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### Simple Architecture Diagram
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```bash
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python scripts/generate_diagram.py simple '{"components": ["User", "API", "DB"], "connections": [["User", "API"], ["API", "DB"]]}'
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```
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### Layered Architecture Diagram
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```bash
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python scripts/generate_diagram.py layered '{"Presentation": ["Web UI"], "Business": ["API"], "Data": ["PostgreSQL"]}'
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```
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### Flow Architecture Diagram
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```bash
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python scripts/generate_diagram.py flow '[{"from": "Client", "to": "Gateway", "label": "HTTP"}, {"from": "Gateway", "to": "Service", "label": "route"}]'
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```
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### C4 Context Diagram
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```bash
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python scripts/generate_diagram.py c4 '{"system": "E-commerce Platform", "actors": ["Customer", "Admin"], "external_systems": ["Payment Gateway", "Email Service"]}'
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```
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Integrate generated diagrams into Section 2 (System Diagram) of the ARCHITECTURE.md template.
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## Validation
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**Execute validation before delivering documentation:**
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```bash
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python scripts/validate_architecture.py ARCHITECTURE.md
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```
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**Validation checks performed:**
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- Verify all 11 sections are present
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- Confirm required fields in Project Identification section
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- Ensure minimal content in each section
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- Count and report placeholder usage
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**Address any warnings** about missing content or excessive placeholders.
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## Documentation Update Workflow
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**For incremental updates:**
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1. Identify what has changed
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2. Update only affected sections
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3. Update the date in Section 10 (Project Identification)
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4. Re-run validation to ensure quality
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**For major updates:**
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1. Review the entire document
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2. Regenerate diagrams if structure has changed
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3. Update multiple sections as needed
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4. Consider adding version notes
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## Mermaid Diagram Generation
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After creating ARCHITECTURE.md, generate the complete set of 5 Mermaid diagrams.
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### Load Mermaid Instructions
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When users request diagrams or complete documentation packages:
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```
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Load references/mermaid-diagrams.md
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```
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### Generate Complete Diagram Set
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Create all 5 diagrams following the guidance in mermaid-diagrams.md:
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1. **C4 Context** (Level 1) - System in its broader context
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2. **C4 Container** (Level 2) - Main application containers
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3. **C4 Component** (Level 3) - Internal component structure
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4. **Data Flow** - How data moves through the system
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5. **C4 Deployment** - Infrastructure topology and deployment
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Use `scripts/generate_mermaid.py` with system JSON configuration.
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**Save diagrams as separate .mmd files:**
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- `01-context.mmd`
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- `02-container.mmd`
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- `03-component.mmd`
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- `04-dataflow.mmd`
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- `05-deployment.mmd`
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**Embed diagrams in ARCHITECTURE.md Section 2** as code blocks for easy viewing and editing.
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## OpenAPI Specification Generation
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For systems with REST APIs, generate comprehensive OpenAPI 3.0 specifications.
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### Generate API Specifications
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Use `scripts/generate_openapi.py` with appropriate parameters:
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**For simple CRUD operations:**
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```bash
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python scripts/generate_openapi.py "ResourceName"
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```
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**For custom API specifications:**
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```bash
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python scripts/generate_openapi.py '{"system_name": "...", "endpoints": [...]}'
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```
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Save the generated specification as `openapi.json` in the project directory.
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## Complete Documentation Workflow
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Follow this end-to-end workflow for comprehensive architecture documentation:
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1. **Conduct structured interview** (5-7 questions maximum)
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2. **Select appropriate template** and **load relevant references**
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3. **Setup work directory**: Use current working directory `$(pwd)`
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4. **Generate ARCHITECTURE.md** with all 11 sections completed
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5. **Generate Mermaid diagrams** (5 separate .mmd files) in work directory root
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6. **Generate OpenAPI specification** (if applicable) in work directory
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7. **Deliver all generated artifacts** to the user
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## Deliverable Organization
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Organize generated documentation files as follows:
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```
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├── ARCHITECTURE.md # Main architecture document
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├── openapi.json # API specification (if applicable)
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├── *.mmd (5 files) # Mermaid diagram sources
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│ ├── 01-context.mmd
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│ ├── 02-container.mmd
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│ ├── 03-component.mmd
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│ ├── 04-dataflow.mmd
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│ └── 05-deployment.mmd
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└── diagrams/ (created during packaging)
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└── *.png (5 files, if rendered to images)
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```
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## Example Usage
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**User request:** "Create architecture documentation for my Node.js microservices project"
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**Execution approach:**
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1. Select microservices template (`assets/ARCHITECTURE-microservices.md`)
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2. Load `references/nodejs.md` and `references/microservices.md`
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3. Conduct focused interview: services, databases, communication patterns, deployment
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4. Generate flow diagram using `scripts/generate_diagram.py flow`
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5. Populate all sections with Node.js and microservices-specific patterns
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6. Validate using `scripts/validate_architecture.py`
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7. Create comprehensive ARCHITECTURE.md in work directory
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## Common Usage Scenarios
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### New Greenfield Projects
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- Use base template (`assets/ARCHITECTURE.md`)
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- Focus on design decisions and architecture rationale
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- Include justification for technology choices
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- Emphasize planned architecture and future scalability
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### Existing System Documentation
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- Ask about current pain points and challenges
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- Document the as-is state accurately
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- Note planned improvements in Section 9 (Future Considerations)
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- Capture current technology stack and limitations
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### Legacy System Analysis
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- Identify undocumented or poorly understood areas
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- Mark uncertain items for further investigation
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- Suggest areas requiring clarification from stakeholders
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- Document assumptions and risks
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### Architecture Reviews and Updates
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- Update only sections that have changed
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- Preserve information that remains accurate
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- Add new components and relationships
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- Update date in Section 10 and note changes
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## Best Practices
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**Efficient documentation creation:**
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- Begin with known information and build incrementally
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- Use placeholders for unknown items to maintain momentum
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- Leverage technology references to save time and ensure accuracy
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- Validate frequently to catch issues early
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**High-quality output standards:**
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- Provide specific, concrete details rather than generic descriptions
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- Include actual technology stack versions and configurations
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- Use real service names, purposes, and data flows
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- Document concrete deployment infrastructure and environments
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**Positive user experience:**
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- Avoid overwhelming users with excessive questions
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- Explain the documentation process and next steps
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- Show progress through the 11 sections clearly
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- Offer refinement and improvement after initial delivery
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