Agent Skills: Architecture Analyzer Skill

Architecture Analyzer Skill

Analyzes and visualizes software architecture patterns and dependencies to support migration planning, module boundary identification, and architectural decision-making.

Purpose

Enable comprehensive architecture analysis for:

• Component dependency mapping
• Layered architecture detection
• Coupling and cohesion metrics
• Architectural violation detection
• Module boundary identification
• Dependency graph generation

Capabilities

1. Component Dependency Mapping

• Extract dependencies between modules/packages
• Map inter-service communications
• Identify external system integrations
• Track data flow between components
• Generate dependency matrices

2. Layered Architecture Detection

• Identify architectural layers (presentation, business, data)
• Detect layer violations
• Map cross-cutting concerns
• Analyze layer dependencies
• Validate architectural patterns

3. Coupling/Cohesion Metrics

• Calculate afferent coupling (Ca)
• Calculate efferent coupling (Ce)
• Compute instability index (I = Ce / (Ca + Ce))
• Measure module cohesion
• Identify highly coupled components

4. Architectural Violation Detection

• Detect circular dependencies between modules
• Identify layer bypassing
• Find direct database access from UI layers
• Check for proper abstraction usage
• Validate dependency rules

5. Module Boundary Identification

• Detect logical module groupings
• Identify bounded contexts
• Map shared kernel areas
• Analyze module interfaces
• Suggest decomposition boundaries

6. Dependency Graph Generation

• Generate DOT format graphs
• Create Mermaid diagrams
• Export to PlantUML
• Produce interactive visualizations
• Support multiple granularity levels

Tool Integrations

This skill can leverage the following external tools when available:

| Tool | Purpose | Integration Method | |------|---------|-------------------| | Structure101 | Architecture visualization | Export analysis | | Lattix | Dependency analysis | CLI / API | | NDepend | .NET architecture analysis | CLI | | JDepend | Java package dependencies | CLI | | Madge | JavaScript/TypeScript | CLI | | deptree | Python dependencies | CLI | | go-arch-lint | Go architecture | CLI | | ast-grep | Pattern matching | MCP Server |

Usage

Basic Analysis

# Invoke skill for architecture analysis
# The skill will analyze structure and dependencies

# Expected inputs:
# - targetPath: Path to codebase root
# - analysisDepth: 'module' | 'package' | 'class' | 'function'
# - outputFormat: 'json' | 'dot' | 'mermaid' | 'plantuml'
# - includeMetrics: boolean

Analysis Workflow

1. Discovery Phase

   • Identify project structure
   • Detect build configuration
   • Map source directories

2. Extraction Phase

   • Parse import/require statements
   • Extract module dependencies
   • Identify external dependencies

3. Analysis Phase

   • Calculate coupling metrics
   • Detect architectural patterns
   • Identify violations
   • Map boundaries

4. Visualization Phase

   • Generate dependency graphs
   • Create architecture diagrams
   • Produce metric reports

Output Schema

{
  "analysisId": "string",
  "timestamp": "ISO8601",
  "target": {
    "path": "string",
    "language": "string",
    "moduleCount": "number",
    "totalFiles": "number"
  },
  "architecture": {
    "pattern": "string (layered|modular|monolithic|microservices)",
    "layers": [
      {
        "name": "string",
        "modules": ["string"],
        "allowedDependencies": ["string"]
      }
    ],
    "boundedContexts": [
      {
        "name": "string",
        "modules": ["string"],
        "interfaces": ["string"]
      }
    ]
  },
  "modules": [
    {
      "name": "string",
      "path": "string",
      "files": "number",
      "linesOfCode": "number",
      "dependencies": ["string"],
      "dependents": ["string"],
      "metrics": {
        "afferentCoupling": "number",
        "efferentCoupling": "number",
        "instability": "number",
        "cohesion": "number"
      }
    }
  ],
  "dependencies": [
    {
      "from": "string",
      "to": "string",
      "type": "import|call|inherit|implement",
      "count": "number"
    }
  ],
  "violations": [
    {
      "type": "circular|layer-bypass|abstraction-leak",
      "severity": "high|medium|low",
      "from": "string",
      "to": "string",
      "description": "string",
      "recommendation": "string"
    }
  ],
  "metrics": {
    "averageCoupling": "number",
    "maxCoupling": "number",
    "cyclomaticComplexity": "number",
    "circularDependencies": "number",
    "layerViolations": "number"
  },
  "graphs": {
    "dot": "string (file path)",
    "mermaid": "string (file path)",
    "plantuml": "string (file path)"
  }
}

Integration with Migration Processes

This skill integrates with the following Code Migration/Modernization processes:

• legacy-codebase-assessment: Architecture understanding
• monolith-to-microservices: Service boundary identification
• migration-planning-roadmap: Dependency-based planning
• code-refactoring: Coupling reduction targets

Configuration

Skill Configuration File

Create .architecture-analyzer.json in the project root:

{
  "analysisDepth": "module",
  "excludePaths": [
    "node_modules",
    "vendor",
    "dist",
    "build",
    ".git",
    "__tests__"
  ],
  "modulePatterns": {
    "javascript": "src/*",
    "java": "src/main/java/**",
    "python": "src/*"
  },
  "layers": {
    "enabled": true,
    "definitions": [
      {
        "name": "presentation",
        "patterns": ["**/ui/**", "**/views/**", "**/controllers/**"],
        "allowedDependencies": ["business", "shared"]
      },
      {
        "name": "business",
        "patterns": ["**/services/**", "**/domain/**"],
        "allowedDependencies": ["data", "shared"]
      },
      {
        "name": "data",
        "patterns": ["**/repositories/**", "**/dao/**"],
        "allowedDependencies": ["shared"]
      },
      {
        "name": "shared",
        "patterns": ["**/common/**", "**/utils/**"],
        "allowedDependencies": []
      }
    ]
  },
  "rules": {
    "maxCoupling": 10,
    "maxModuleSize": 5000,
    "forbiddenDependencies": [
      {"from": "presentation", "to": "data"}
    ]
  },
  "visualization": {
    "formats": ["mermaid", "dot"],
    "groupBy": "layer",
    "showMetrics": true
  }
}

MCP Server Integration

When ast-grep MCP Server is available for pattern detection:

// Example architecture pattern detection
{
  "tool": "ast_grep_search",
  "arguments": {
    "pattern": "import { $_ } from '../data/$_'",
    "language": "typescript",
    "path": "./src/ui"
  }
}

Architectural Patterns

Layered Architecture

┌─────────────────────────────────┐
│      Presentation Layer         │
│  (UI, Controllers, Views)       │
└──────────────┬──────────────────┘
               │
┌──────────────▼──────────────────┐
│       Business Layer            │
│  (Services, Domain, Logic)      │
└──────────────┬──────────────────┘
               │
┌──────────────▼──────────────────┐
│         Data Layer              │
│  (Repositories, DAOs, ORM)      │
└─────────────────────────────────┘

Modular Monolith

┌─────────────────────────────────────────────┐
│              Application Shell               │
├───────────┬───────────┬───────────┬─────────┤
│  Module A │  Module B │  Module C │ Shared  │
│  ┌─────┐  │  ┌─────┐  │  ┌─────┐  │ ┌─────┐ │
│  │ UI  │  │  │ UI  │  │  │ UI  │  │ │Utils│ │
│  ├─────┤  │  ├─────┤  │  ├─────┤  │ └─────┘ │
│  │Logic│  │  │Logic│  │  │Logic│  │         │
│  ├─────┤  │  ├─────┤  │  ├─────┤  │         │
│  │Data │  │  │Data │  │  │Data │  │         │
│  └─────┘  │  └─────┘  │  └─────┘  │         │
└───────────┴───────────┴───────────┴─────────┘

Microservices (Target)

┌─────────┐  ┌─────────┐  ┌─────────┐
│Service A│  │Service B│  │Service C│
│  ┌───┐  │  │  ┌───┐  │  │  ┌───┐  │
│  │API│  │  │  │API│  │  │  │API│  │
│  └─┬─┘  │  │  └─┬─┘  │  │  └─┬─┘  │
│    │    │  │    │    │  │    │    │
│  ┌─▼─┐  │  │  ┌─▼─┐  │  │  ┌─▼─┐  │
│  │DB │  │  │  │DB │  │  │  │DB │  │
│  └───┘  │  │  └───┘  │  │  └───┘  │
└─────────┘  └─────────┘  └─────────┘
      │            │            │
      └────────────┼────────────┘
                   │
            ┌──────▼──────┐
            │  Event Bus  │
            └─────────────┘

Metrics Reference

Coupling Metrics

| Metric | Formula | Good | Warning | Bad | |--------|---------|------|---------|-----| | Afferent Coupling (Ca) | Incoming dependencies | < 10 | 10-20 | > 20 | | Efferent Coupling (Ce) | Outgoing dependencies | < 10 | 10-20 | > 20 | | Instability (I) | Ce / (Ca + Ce) | 0-0.3 or 0.7-1.0 | 0.3-0.7 | - | | Abstractness (A) | Abstract classes / Total | Context dependent | - | - |

Distance from Main Sequence

D = |A + I - 1|

• D = 0: Ideal (on the main sequence)
• D > 0.3: Warning
• D > 0.5: Problematic

Best Practices

1. Regular Analysis: Run architecture analysis as part of CI/CD
2. Define Boundaries: Explicitly define module and layer boundaries
3. Enforce Rules: Use architectural fitness functions
4. Document Decisions: Use ADRs for architectural changes
5. Track Metrics: Monitor coupling trends over time
6. Visualize: Keep architecture diagrams up to date

Related Skills

• static-code-analyzer: Code-level analysis
• domain-model-extractor: DDD boundary identification
• technical-debt-quantifier: Architecture debt assessment

Related Agents

• legacy-system-archaeologist: Uses this skill for architecture discovery
• microservices-decomposer: Uses this skill for boundary identification
• ddd-analyst: Uses this skill for context mapping
• migration-readiness-assessor: Uses this skill for architecture evaluation

References

• Structure101
• Lattix
• NDepend
• Madge
• C4 Model
• Architecture Decision Records