NAF v4 Architecture Metadata Modeling for Sparx Enterprise Architect
Overview
This skill enables natural language interaction with Sparx Enterprise Architect's MCP server to create NAF v4 / ADMBw compliant Architecture Foundation/Metadata Viewpoints. It translates informal user requests into precise MCP tool calls with correct stereotypes, UML types, and profiles.
Core Workflow
When the user requests NAF architecture metadata modeling:
- •Parse the request - Identify what the user wants (diagram, element, or association)
- •Map to NAF metamodel - Translate natural language to formal stereotypes using references
- •Execute MCP calls - Create or update models in Sparx EA
- •Confirm and offer next steps - Show what was created and suggest related actions
Key Principles
- •Interpret flexibly - Accept natural language like "add an architectural description" or "create viewpoint link"
- •Map precisely - Always use exact stereotypes and UML types from the metamodel
- •Auto-name when needed - If user provides description but no name, generate concise technical name
- •Validate connections - Check metaconstraints before creating associations (see JSON data)
- •Ask when ambiguous - Offer options if request could map to multiple stereotypes
General Modeling Rules
These rules apply to all NAF v4 modeling tasks:
1. Modeling Target Clarification
When the modeling target is unclear, always ask the user where to model:
- •Currently open diagram - Add elements to the active diagram
- •Specific (non-displayed) diagram - Add to a named diagram that may not be open
- •Package in workspace - Create elements in a specific package location
- •New diagram - Create a new diagram first
Default behavior: If not explicitly specified, use the currently open diagram as the modeling target.
2. Element Existence Verification
Before using element names in any operation, especially when creating connections:
- •Always check first if the element already exists in the diagram or workspace
- •Use MCP
find_elements_by_nameto search for elements - •If multiple elements with the same name exist, ask the user to clarify which one (by package path or GUID)
- •If the element doesn't exist, offer to create it or ask for clarification
This prevents:
- •Creating duplicate elements
- •Invalid connections to non-existent elements
- •Confusion about which element is being referenced
3. Automatic Diagram Layout
Never apply automatic diagram layout operations:
- •Do not use
layout_diagramor similar automatic layout functions - •Manual layout only - Let the user arrange elements manually in Sparx EA
- •Elements should be placed on diagrams using
place_element_on_diagram, but their visual arrangement is left to the user - •The user controls the visual organization of their diagrams
Supported Viewpoints
| Viewpoint | ID | Purpose | Common Requests |
|---|---|---|---|
| Meta-Data Definitions | A1 | Define meta-data tags for searching and discovery | "Create A1 diagram", "Add classification" |
| Architecture Products | A2 | Specify architecture structure and products | "Add view", "Create viewpoint", "Link concern" |
| Architecture Correspondence | A3 | Define relations between architecture descriptions | "Link architectures", "Create reference" |
| Methodology Used | A4 | Specify methodology for architecting activities | "Document methodology", "Add metadata" |
| Architecture Status | A5 | Track version numbers and approval status | "Track status", "Add milestone" |
| Architecture Version | A6 | Show complete architecture history | "Show version history", "Link versions" |
| Architecture Compliance | A7 | Specify architecture meta-data compliance | "Add compliance info", "Create same-as link" |
| Standards | A8 | Define technical and non-technical standards | "Add standard", "Create protocol", "Protocol stack" |
| Architecture Roadmap | Ar | Show architecture project history and future | "Create roadmap", "Show sequence" |
Creating Diagrams
To create a NAF architecture metadata diagram, use the MCP create_or_update_diagram tool:
{
"name": "<diagram-name>",
"type": "Custom", // NAF diagrams are always Custom type
"stereotype": "<viewpoint-identifier>", // e.g. "A1", "A2", "A3", "A4", "A5", "A6", "A7", "A8", "Ar"
"packagePath": "<package-path>", // e.g. "Model/Architecture"
"extendedProperties": {
"alias": "<full-viewpoint-name>", // e.g. "A1 - Meta-Data Definitions"
"diagramID": "<viewpoint-id>", // e.g. "A1"
"toolbox": "<toolbox-name>" // e.g. "NAFv4-ADMBw-A1-Toolbox"
}
}
Example user requests:
- •"Create an A1 diagram called 'System Metadata'"
- •"Make a new Architecture Products view"
- •"I need an A8 diagram for standards documentation"
Creating Elements
To create a NAF architecture metadata element, use the MCP create_or_update_element tool:
{
"name": "<element-name>",
"type": "<uml-type>", // e.g. "Package", "Class", "Object", "Note", "Part"
"stereotype": "<NAF-stereotype>", // e.g. "ArchitecturalDescription", "View", "Viewpoint"
"packagePath": "<package-path>",
"notes": "<description>", // User's full description text
"profile": "NAFv4-ADMBw" // Always use this profile
}
Auto-naming logic: When user provides description but no name, generate a concise technical identifier:
- •Extract key concepts from description
- •Use PascalCase or hyphenated format
- •Keep to 3-5 words maximum
- •Example: "Architecture for C2 system" → "C2ArchitectureDescription" or "AD-C2System"
Example user requests:
- •"Add architectural description for 'System XYZ Architecture'"
- •"Create a View named 'Operational View'"
- •"Add Viewpoint element for stakeholder concerns"
- •"Add standard for ISO 42010"
- •"Create protocol stack for TCP/IP"
Creating Associations
To create connections between elements, use the MCP create_or_update_connector tool:
{
"sourceElementName": "<source-element>",
"targetElementName": "<target-element>",
"connectorType": "<uml-connector-type>", // e.g. "Dependency", "Realization"
"stereotype": "<NAF-stereotype>", // e.g. "DescribedBy", "CompliesViewpoint"
"packagePath": "<package-path>",
"profile": "NAFv4-ADMBw"
}
Before creating associations, validate:
- •Load
references/architecture_metadata_viewpoints.jsonif not already in context - •Check metaconstraints for the desired stereotype
- •Ensure source element stereotype matches valid
clientconstraint - •Ensure target element stereotype matches valid
supplierconstraint - •If invalid, explain to user and suggest valid alternatives
Example user requests:
- •"Link view X to viewpoint Y with 'complies with'"
- •"Create DescribedBy relationship from architecture description to architecture"
- •"Architecture A is successor of Architecture B"
- •"Mark element X as same as element Y"
Handling Ambiguity
When user request could map to multiple stereotypes:
- •Identify possibilities - Check
stereotype_mappings.mdand JSON data - •Present 2-4 options - Show most likely matches with brief explanation
- •Let user choose - Wait for clarification before proceeding
- •Execute - Proceed with selected option
Example interaction:
User: "Add a stakeholder element" Claude: "I can create several types of stakeholder elements. Which would you like? 1. **ActualOrganization** - A specific organization instance 2. **ActualPerson** - An individual human being 3. **ActualPost** - A specific post/role instance 4. **Organization** - An organization type/template 5. **Person** - A person type/template 6. **Post** - A post/role type/template Which type fits your needs?"
Natural Language Mapping
Load references/stereotype_mappings.md for quick lookup when user uses casual terminology:
- •"architectural description" → ArchitecturalDescription
- •"view" → View
- •"viewpoint" → Viewpoint
- •"concern" → Concern
- •"complies with viewpoint" → CompliesViewpoint
- •"successor of" → ArchitecturalSequence
For detailed metamodel constraints, properties, and valid connections, reference references/architecture_metadata_viewpoints.json.
Progressive Data Loading
Always in context: Core workflow and mapping principles (this SKILL.md file)
Load on demand:
- •
references/stereotype_mappings.md- When mapping user's natural language to formal stereotypes - •
references/architecture_metadata_viewpoints.json- When validating metaconstraints, checking detailed properties, or resolving complex associations
This keeps responses efficient while ensuring access to complete metamodel data when needed.
Common Patterns
Pattern: Create A2 Diagram with Views and Viewpoints
User: "Create A2 diagram with viewpoints and concerns" Actions: 1. Create A2 diagram using create_or_update_diagram 2. Create ArchitecturalDescription element (type: Package) 3. Create 2-3 Viewpoint elements (type: Class) 4. Create 2-3 Concern elements (type: Class) 5. Create ConcernForViewpoint connectors (type: Dependency) 6. Use place_element_on_diagram to add all elements to the diagram 7. Optional: Use layout_diagram for automatic arrangement
Pattern: Add Architecture Description with Auto-naming
User: "Add architectural description: System architecture for the command and control system."
Actions:
1. Extract key concepts: command, control, system
2. Generate concise name: "C2SystemArchitecture" or "AD-C2System"
3. Create element using create_or_update_element:
{
"name": "C2SystemArchitecture",
"type": "Package",
"stereotype": "ArchitecturalDescription",
"notes": "System architecture for the command and control system.",
"profile": "NAFv4-ADMBw",
"packagePath": "<current-package>"
}
Pattern: Create View-Viewpoint Relationship
User: "View X complies with Viewpoint Y"
Actions:
1. Verify both elements exist using find_elements_by_name
2. Load architecture_metadata_viewpoints.json to check CompliesViewpoint metaconstraints
3. Validate: X should be View (client)
4. Validate: Y should be Viewpoint (supplier)
5. Create connector using create_or_update_connector:
{
"sourceElementName": "X",
"targetElementName": "Y",
"connectorType": "Dependency",
"stereotype": "CompliesViewpoint",
"profile": "NAFv4-ADMBw"
}
Pattern: Create Protocol Stack (A8)
User: "Create TCP/IP protocol stack" Actions: 1. Create Protocolstack element named "TCP/IP Stack" (type: Class) 2. Create Protocol elements for each layer (e.g., "TCP", "IP", "Ethernet") 3. Create ProtocolLayer elements (type: Part) to define the stack composition 4. Link ProtocolLayers to the Protocolstack using appropriate relationships 5. Add all elements to the A8 diagram
Error Handling
Element Not Found
- •Use MCP
find_elements_by_nameto search for element - •If multiple matches, present list and ask user to clarify (by GUID or package path)
- •If none found, offer to create the element
- •Ask for element details if creation is needed
Invalid Connection Attempt
- •Load
architecture_metadata_viewpoints.jsonand check metaconstraints - •Explain why the connection is invalid (stereotype mismatch)
- •Look up valid alternatives from the same viewpoint
- •Suggest correct stereotypes for both source and target
Ambiguous Viewpoint Context
- •If user says "add view" without viewpoint context, check current open diagram
- •If no diagram context available, ask which viewpoint (A1-A8, Ar) they're working in
- •Default to A2 for views and viewpoints if user is unsure
- •Explain briefly what each viewpoint is for
Missing Package Path
- •If package path not specified, check current package using get_current_package
- •If no current package, ask user where to create element
- •Suggest logical locations like "Model/Architecture" or similar
Tips for Effective Usage
- •Be specific about viewpoints - "Create A2 diagram" is clearer than generic "architecture diagram"
- •Use natural language freely - "successor of" works as well as formal "ArchitecturalSequence"
- •Provide context when possible - Mentioning parent elements or current diagram helps placement
- •Combine operations - "Create A2 with viewpoints and concerns" is efficient and clear
- •Trust auto-naming - For descriptions with long text, let the skill generate concise names
- •Validate before complex operations - For critical models, ask skill to verify connections first
Reference Files
This skill includes two reference files for progressive data loading:
- •references/stereotype_mappings.md - Quick reference for stereotype lookup and natural language → formal term mapping
- •references/architecture_metadata_viewpoints.json - Complete NAF v4 Architecture Metadata metamodel extracted from MDG with all stereotypes, properties, metaconstraints, and toolbox definitions