Claude-skill-registry bmad-integration
install
source · Clone the upstream repo
git clone https://github.com/majiayu000/claude-skill-registry
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/majiayu000/claude-skill-registry "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/data/bmad-integration" ~/.claude/skills/majiayu000-claude-skill-registry-bmad-integration && rm -rf "$T"
manifest:
skills/data/bmad-integration/SKILL.mdsource content
BMAD Integration Skill
Proposito
Esta skill integra conceitos do BMAD Method para:
- Escala Adaptativa - Detectar nivel de complexidade (0-3)
- Workflow Mapping - Mapear workflows BMAD para agentes locais
- Role Alignment - Alinhar roles BMAD com agentes do SDLC
BMAD Overview
BMAD Method oferece:
- 21 agentes especializados
- 50+ workflows guiados
- 3 modulos: BMM (core), BMB (builder), CIS (criativo)
- Escala adaptativa Level 0-4
Escala Adaptativa
Level 0 - Quick Flow
trigger: - bug fix - typo - hotfix - small change - patch agents: [code-author, code-reviewer] skip_phases: [0, 1, 2, 3, 4] estimated_time: "~5 min" human_approval: false
Level 1 - Feature
trigger: - new feature in existing service - enhancement - improvement - minor change agents: - requirements-analyst - code-author - test-author - code-reviewer skip_phases: [0, 1, 3] estimated_time: "~15-30 min" human_approval: false
Level 2 - Product/Service
trigger: - new product - new service - new integration - major feature - new domain agents: "ALL" skip_phases: [] estimated_time: "~1-4 hours" human_approval: true approval_gates: [phase-2-to-3, phase-6-to-7]
Level 3 - Enterprise
trigger: - compliance requirement - multi-team effort - critical system - security sensitive - high risk agents: "ALL" skip_phases: [] estimated_time: "variable" human_approval: true approval_gates: "ALL" extra_requirements: - compliance_review - security_review - architecture_review - legal_review
Role Mapping
| BMAD Role | Nosso Agente | Fase |
|---|---|---|
| Discovery Agent | domain-researcher | 1 |
| Product Manager | product-owner | 2 |
| Requirements Agent | requirements-analyst | 2 |
| UX Designer | ux-writer | 2 |
| Architect | system-architect | 3 |
| Data Architect | data-architect | 3 |
| Security Expert | threat-modeler | 3 |
| Scrum Master | delivery-planner | 4 |
| Developer | code-author | 5 |
| Code Reviewer | code-reviewer | 5 |
| Test Engineer | test-author | 5 |
| QA Expert | qa-analyst | 6 |
| DevOps | cicd-engineer | 7 |
| SRE | observability-engineer | 8 |
Deteccao de Complexidade
Algoritmo
def detect_complexity(request: str, context: dict) -> int: """Detecta nivel de complexidade baseado na request.""" # Keywords por nivel level_0_keywords = [ "fix", "typo", "bug", "hotfix", "patch", "corrigir", "ajustar", "pequeno" ] level_1_keywords = [ "feature", "enhancement", "add", "improve", "funcionalidade", "melhoria", "adicionar" ] level_2_keywords = [ "new service", "new product", "integration", "novo servico", "novo produto", "integracao" ] level_3_keywords = [ "compliance", "security", "critical", "multi-team", "enterprise", "audit", "gdpr", "lgpd", "pci" ] request_lower = request.lower() # Verificar level 3 primeiro (mais restritivo) if any(kw in request_lower for kw in level_3_keywords): return 3 if any(kw in request_lower for kw in level_2_keywords): return 2 if any(kw in request_lower for kw in level_1_keywords): return 1 # Verificar contexto if context.get("affected_services", 0) >= 3: return 3 if context.get("new_service", False): return 2 if context.get("existing_service", True): return 1 # Default: feature return 1
Workflow Templates
Quick Flow (Level 0)
workflow: quick_flow steps: - agent: code-author action: implement_fix validation: compile_check - agent: code-reviewer action: quick_review validation: no_blockers - action: commit_and_push validation: ci_pass
Feature Flow (Level 1)
workflow: feature_flow steps: - phase: 2 agent: requirements-analyst action: clarify_requirements output: user_story - phase: 5 agents: [code-author, test-author] action: implement_with_tests output: [code, tests] - phase: 5 agent: code-reviewer action: review validation: approved - phase: 6 agent: qa-analyst action: validate validation: quality_ok
Full SDLC (Level 2)
workflow: full_sdlc steps: - phase: 0 agents: [intake-analyst, compliance-guardian] gate: phase-0-to-1 - phase: 1 agents: [domain-researcher, rag-curator] gate: phase-1-to-2 - phase: 2 agents: [product-owner, requirements-analyst] output: spec gate: phase-2-to-3 - phase: 3 agents: [system-architect, adr-author, threat-modeler] output: [architecture, adrs, threat_model] gate: phase-3-to-4 # ... continua para todas as fases
Integracao
Com orchestrator
O orchestrator usa bmad-integration para:
- Detectar nivel na entrada
- Selecionar workflow apropriado
- Configurar gates necessarios
- Definir aprovacoes humanas
Com gate-evaluator
Complexidade afeta rigor dos gates:
- Level 0-1: Gates simplificados
- Level 2: Gates padrao
- Level 3: Gates estendidos + extra reviews
Scripts
detect_level.py
#!/usr/bin/env python3 """Detecta nivel de complexidade de uma request.""" import sys import json def detect_level(request: str) -> dict: # Implementacao do algoritmo level = 1 # default keywords = { 0: ["fix", "bug", "typo", "hotfix"], 1: ["feature", "add", "improve"], 2: ["new service", "integration", "new product"], 3: ["compliance", "security", "critical", "multi-team"] } request_lower = request.lower() for lvl in [3, 2, 1, 0]: if any(kw in request_lower for kw in keywords[lvl]): level = lvl break return { "level": level, "workflow": ["quick_flow", "feature_flow", "full_sdlc", "enterprise_flow"][level], "human_approval": level >= 2, "estimated_time": ["~5min", "~15min", "~1-4h", "variable"][level] } if __name__ == "__main__": request = " ".join(sys.argv[1:]) if len(sys.argv) > 1 else "" result = detect_level(request) print(json.dumps(result, indent=2))
Pontos de Pesquisa
Para melhorar:
- BMAD Method GitHub
- "adaptive software development workflows"
- "complexity detection in software projects"
Referencias
- BMAD Method
- BMAD Documentation