#!/usr/bin/env python3 """ Capability Discovery Tool Provides automated discovery and validation of included capabilities to prevent code duplication and ensure proper capability usage. """ import os import json import subprocess from pathlib import Path from typing import Dict, List, Optional, Tuple class CapabilityDiscovery: """Tool for discovering and validating included capabilities.""" def __init__(self, project_root: str = "."): self.project_root = Path(project_root).resolve() self.capabilities = {} self._discover_capabilities() def _discover_capabilities(self): """Discover all available capabilities.""" # Submodule capabilities self._discover_submodules() # Local capabilities self._discover_local_capabilities() # External dependencies self._discover_external_dependencies() def _discover_submodules(self): """Discover git submodule capabilities.""" gitmodules_path = self.project_root / ".gitmodules" if not gitmodules_path.exists(): return with open(gitmodules_path, 'r') as f: content = f.read() # Parse submodules submodules = [] current_submodule = {} for line in content.split('\n'): line = line.strip() if line.startswith('[submodule'): if current_submodule: submodules.append(current_submodule) current_submodule = {'name': line.split('"')[1]} elif '=' in line and current_submodule: key, value = line.split('=', 1) current_submodule[key.strip()] = value.strip() if current_submodule: submodules.append(current_submodule) # Add to capabilities for submodule in submodules: path = submodule.get('path', '') if path: self.capabilities[path] = { 'type': 'submodule', 'name': submodule['name'], 'path': path, 'url': submodule.get('url', ''), 'status': self._check_submodule_status(path) } def _discover_local_capabilities(self): """Discover local capability directories.""" capabilities_dir = self.project_root / "capabilities" if not capabilities_dir.exists(): return for cap_dir in capabilities_dir.iterdir(): if cap_dir.is_dir() and not cap_dir.name.startswith('.'): readme_path = cap_dir / "README.md" self.capabilities[f"capabilities/{cap_dir.name}"] = { 'type': 'local', 'name': cap_dir.name, 'path': f"capabilities/{cap_dir.name}", 'has_readme': readme_path.exists(), 'status': 'available' } def _discover_external_dependencies(self): """Discover external package dependencies.""" pyproject_path = self.project_root / "pyproject.toml" if not pyproject_path.exists(): return # Basic parsing of dependencies (could be enhanced with toml library) with open(pyproject_path, 'r') as f: content = f.read() # Extract key dependencies key_deps = ['click', 'pytest', 'sqlalchemy', 'requests'] for dep in key_deps: if dep in content: self.capabilities[f"external/{dep}"] = { 'type': 'external', 'name': dep, 'path': f"external/{dep}", 'status': 'package_dependency' } def _check_submodule_status(self, path: str) -> str: """Check if submodule is properly initialized.""" submodule_path = self.project_root / path if not submodule_path.exists(): return 'missing' # Check if it's an empty directory if submodule_path.is_dir() and not any(submodule_path.iterdir()): return 'uninitialized' return 'available' def get_capability_info(self, name: str) -> Optional[Dict]: """Get information about a specific capability.""" for cap_path, info in self.capabilities.items(): if info['name'] == name or cap_path == name: return info return None def search_functionality(self, search_term: str) -> List[Tuple[str, str]]: """Search for functionality across capabilities.""" results = [] for cap_path, info in self.capabilities.items(): if info['type'] == 'submodule' and info['status'] == 'available': results.extend(self._search_in_submodule(cap_path, search_term)) elif info['type'] == 'local': results.extend(self._search_in_local_capability(cap_path, search_term)) return results def _search_in_submodule(self, path: str, search_term: str) -> List[Tuple[str, str]]: """Search for functionality in a submodule.""" results = [] submodule_path = self.project_root / path if not submodule_path.exists(): return results # Search README files for readme in submodule_path.glob("**/README.md"): try: with open(readme, 'r') as f: content = f.read().lower() if search_term.lower() in content: results.append((path, f"README: {readme.relative_to(submodule_path)}")) except Exception: pass # Search Python files for functions/classes for py_file in submodule_path.glob("**/*.py"): try: with open(py_file, 'r') as f: content = f.read() if search_term in content: results.append((path, f"Code: {py_file.relative_to(submodule_path)}")) except Exception: pass return results def _search_in_local_capability(self, path: str, search_term: str) -> List[Tuple[str, str]]: """Search for functionality in a local capability.""" results = [] cap_path = self.project_root / path if not cap_path.exists(): return results # Search Python files for py_file in cap_path.glob("**/*.py"): try: with open(py_file, 'r') as f: content = f.read() if search_term in content: results.append((path, f"Code: {py_file.relative_to(cap_path)}")) except Exception: pass return results def generate_report(self) -> str: """Generate a capability discovery report.""" report = ["# Capability Discovery Report", ""] # Summary total_caps = len(self.capabilities) submodules = len([c for c in self.capabilities.values() if c['type'] == 'submodule']) local = len([c for c in self.capabilities.values() if c['type'] == 'local']) external = len([c for c in self.capabilities.values() if c['type'] == 'external']) report.extend([ f"**Total Capabilities**: {total_caps}", f"- Submodules: {submodules}", f"- Local: {local}", f"- External: {external}", "" ]) # Details by type for cap_type in ['submodule', 'local', 'external']: caps_of_type = {k: v for k, v in self.capabilities.items() if v['type'] == cap_type} if caps_of_type: report.append(f"## {cap_type.title()} Capabilities") for path, info in caps_of_type.items(): status_emoji = "✅" if info['status'] == 'available' else "❌" report.append(f"- {status_emoji} **{info['name']}** (`{path}`) - {info['status']}") report.append("") return '\n'.join(report) def validate_capability_usage(self, file_path: str) -> List[str]: """Validate that a file properly uses existing capabilities.""" warnings = [] if not Path(file_path).exists(): return ["File not found"] with open(file_path, 'r') as f: content = f.read() # Check for potential duplication duplication_patterns = { 'issue management': ['create_issue', 'list_issues', 'close_issue'], 'content parsing': ['parse_markdown', 'extract_content', 'ContentParser'], 'utilities': ['helper_function', 'utility_function'] } for capability, patterns in duplication_patterns.items(): for pattern in patterns: if pattern in content: # Check if proper capability import is used if capability == 'issue management' and 'issue-facade' not in content: warnings.append(f"Potential issue management duplication: {pattern} found but no issue-facade usage") elif capability == 'content parsing' and 'markitect_content' not in content: warnings.append(f"Potential content parsing duplication: {pattern} found but no markitect-content usage") return warnings def main(): """CLI interface for capability discovery.""" import sys discovery = CapabilityDiscovery() if len(sys.argv) < 2: print("Usage: capability_discovery.py [report|search|validate] [args...]") return command = sys.argv[1] if command == "report": print(discovery.generate_report()) elif command == "search" and len(sys.argv) > 2: search_term = sys.argv[2] results = discovery.search_functionality(search_term) if results: print(f"Found '{search_term}' in:") for cap, location in results: print(f" - {cap}: {location}") else: print(f"No results found for '{search_term}'") elif command == "validate" and len(sys.argv) > 2: file_path = sys.argv[2] warnings = discovery.validate_capability_usage(file_path) if warnings: print("Validation warnings:") for warning in warnings: print(f" ⚠️ {warning}") else: print("✅ No capability usage issues found") else: print("Invalid command or missing arguments") if __name__ == "__main__": main()