# MarkiTect External Capability Registry > **Registry of all capabilities USED BY MarkiTect (external dependencies, submodules, extracted components)** ## Overview This registry documents all **external capabilities** that MarkiTect depends on - functionality that MarkiTect **uses** rather than **provides**. This includes git submodules, extracted local capabilities, and package dependencies. > **Note**: For capabilities that MarkiTect **provides** to the world, see `CAPABILITIES.md`. For complete architecture understanding, see `CAPABILITY_INCLUSION_GUIDE.md`. ## Capability Inclusion Patterns ### 1. **Submodule Capabilities** (External Repositories) Full repositories included as git submodules for independent development and versioning. ### 2. **Local Capabilities** (Extracted Components) Self-contained capabilities extracted from the main codebase but maintained locally. ### 3. **External Dependencies** (Package Dependencies) Third-party packages providing specific capabilities via pip/pypi. --- ## 🔍 **ACTIVE CAPABILITIES REGISTRY** ### Universal Issue Management - **Type**: Submodule Capability - **Location**: `capabilities/issue-facade/` - **Repository**: `coulomb/issue-facade` - **Purpose**: Backend-agnostic issue tracking with unified CLI - **Interfaces**: - CLI: `cd capabilities/issue-facade && python -m cli.main [command]` - API: Core models, backends (local SQLite, Gitea, GitHub, GitLab) - **Usage Guidelines**: - ✅ **USE**: For all issue management tasks - ❌ **DON'T**: Implement custom issue tracking, duplicate CLI commands - 🔧 **Integration**: Reference submodule for issue operations ### Kaizen-Agentic Framework - **Type**: Submodule Capability - **Location**: `capabilities/kaizen-agentic/` - **Repository**: `coulomb/kaizen-agentic` - **Purpose**: Advanced AI agent framework for autonomous development workflows - **Interfaces**: - CLI: `cd capabilities/kaizen-agentic && make [command]` - Framework: Agent definitions, workflow automation, development patterns - **Usage Guidelines**: - ✅ **USE**: For AI agent definitions and autonomous workflows - ❌ **DON'T**: Implement custom agent frameworks, duplicate AI patterns - 🔧 **Integration**: Reference framework for agent-driven development ### Content Processing Capability - **Type**: Local Capability - **Location**: `capabilities/markitect-content/` - **Purpose**: MarkdownMatters content parsing without frontmatter/tailmatter - **Interfaces**: - `ContentParser` class for content extraction - `ContentStats` for document statistics - CLI commands for content operations - **Usage Guidelines**: - ✅ **USE**: For content extraction and analysis - ❌ **DON'T**: Reimplement markdown content parsing - 🔧 **Integration**: Import from `capabilities.markitect_content` ### Utility Functions Capability - **Type**: Local Capability - **Location**: `capabilities/markitect-utils/` - **Purpose**: Common utility functions and helpers - **Interfaces**: Shared utilities and helper functions - **Usage Guidelines**: - ✅ **USE**: For common operations and utilities - ❌ **DON'T**: Duplicate utility functions - 🔧 **Integration**: Import from `capabilities.markitect_utils` ### Documentation and Knowledge Base - **Type**: Submodule Capability - **Location**: `wiki/` - **Repository**: `coulomb/markitect_project.wiki` - **Purpose**: Comprehensive project documentation and knowledge base - **Interfaces**: Markdown documentation files - **Usage Guidelines**: - ✅ **USE**: For project documentation, architectural decisions - ❌ **DON'T**: Create duplicate documentation - 🔧 **Integration**: Reference wiki for authoritative documentation --- ## 🚫 **CAPABILITY CONFLICT PREVENTION** ### Before Implementing New Functionality: 1. **Check This Registry**: Verify no existing capability provides the functionality 2. **Search Submodules**: Check `issue-facade/`, `wiki/` for existing solutions 3. **Check Local Capabilities**: Review `capabilities/` directory 4. **Consult Documentation**: Check capability READMEs for interface details ### Implementation Guidelines: - **Extend, Don't Duplicate**: If functionality exists, extend or interface with it - **Clear Boundaries**: New code should complement, not replace, existing capabilities - **Interface Respect**: Use documented interfaces rather than reimplementing - **Separation of Concerns**: Maintain clear boundaries between core MarkiTect and capabilities --- ## 🔧 **INTEGRATION PATTERNS** ### Submodule Integration ```bash # Issue management cd capabilities/issue-facade && python -m cli.main list # AI agent framework cd capabilities/kaizen-agentic && make [command] # Documentation updates cd wiki && git pull origin main ``` ### Local Capability Integration ```python # Content processing from capabilities.markitect_content import ContentParser parser = ContentParser() # Utilities from capabilities.markitect_utils import helper_function ``` ### External Dependency Integration ```python # Standard package imports import click # CLI framework import pytest # Testing framework ``` --- ## 📋 **CLAUDE USAGE GUIDELINES** ### When Asked to Implement Functionality: 1. **First**: Check this registry for existing capabilities 2. **If Exists**: Use/extend the existing capability rather than reimplementing 3. **If Missing**: Implement new functionality with clear separation from existing capabilities 4. **Document**: Update this registry when adding new capabilities ### Capability Respect Rules: - **Issue Management**: Always use `issue-facade` submodule, never implement custom issue tracking - **Content Processing**: Use `markitect-content` capability for MarkdownMatters parsing - **Documentation**: Reference `wiki` submodule for authoritative project information - **Utilities**: Check `markitect-utils` before creating new utility functions ### Integration Commands: - **Issue Operations**: `cd capabilities/issue-facade && python -m cli.main [command]` - **AI Agent Framework**: `cd capabilities/kaizen-agentic && make [command]` - **Content Analysis**: Import from `capabilities.markitect_content` - **Utility Functions**: Import from `capabilities.markitect_utils` - **Documentation**: Reference files in `wiki/` --- ## 🔄 **CAPABILITY LIFECYCLE MANAGEMENT** ### Adding New Capabilities 1. **Evaluate**: Does this warrant capability extraction? 2. **Choose Pattern**: Submodule (external repo) vs Local capability vs External dependency 3. **Implement**: Follow capability inclusion patterns 4. **Document**: Update this registry with interface details 5. **Update Agents**: Inform specialized agents of new capability ### Updating Existing Capabilities 1. **Submodules**: Update submodule reference (`git submodule update`) 2. **Local Capabilities**: Update local code and interfaces 3. **External Dependencies**: Update package versions in `pyproject.toml` 4. **Registry**: Update interface documentation if changed ### Removing Capabilities 1. **Deprecation Notice**: Document deprecation timeline 2. **Migration Path**: Provide alternative solutions 3. **Remove References**: Update all code using the capability 4. **Clean Registry**: Remove from this registry 5. **Update Documentation**: Update all relevant documentation --- ## 📊 **CAPABILITY METRICS** - **Total Capabilities**: 5 active capabilities - **Submodule Capabilities**: 3 (issue-facade, kaizen-agentic, wiki) - **Local Capabilities**: 2 (markitect-content, markitect-utils) - **External Dependencies**: Multiple (see pyproject.toml) - **Coverage**: Issue management, AI agent framework, content processing, utilities, documentation --- ## 🎯 **SUCCESS CRITERIA** ### For Developers: - [ ] Zero accidental functionality duplication - [ ] Clear interface boundaries respected - [ ] Efficient capability discovery and usage - [ ] Proper separation of concerns maintained ### For Claude: - [ ] Registry consulted before implementing new functionality - [ ] Existing capabilities used when available - [ ] Clear understanding of capability boundaries - [ ] Proper integration patterns followed ### For the Project: - [ ] Modular architecture maintained - [ ] Easy capability extension and bugfixing - [ ] Clean separation between core and capabilities - [ ] Scalable capability inclusion patterns