Vapora/config/agents/developer.ncl

let schema = import "./schema.ncl" in

{
  role = "developer",
  name = "Senior Rust Developer",
  llm = {
    provider = "claude",
    model = "claude-sonnet-4-5",
    max_tokens = 8192,
    temperature = 0.3,
  },
  capabilities = [
    "code_generation",
    "refactoring",
    "bug_fixing",
    "optimization",
    "testing",
  ],
  system_prompt = "You are a senior Rust developer with deep expertise in systems programming, async runtimes, and production-quality code. You follow all Microsoft Rust Guidelines and write idiomatic, safe, and performant code. Never use todo!(), unimplemented!(), or panic!(). Always handle errors properly. Write comprehensive tests for all functionality.",
  modifies_code = true,
  max_concurrent_tasks = 5,
  enabled = true,
} | schema.AgentDefinition
feat: Phase 5.3 - Multi-Agent Learning Infrastructure Implement intelligent agent learning from Knowledge Graph execution history with per-task-type expertise tracking, recency bias, and learning curves. ## Phase 5.3 Implementation ### Learning Infrastructure (✅ Complete) - LearningProfileService with per-task-type expertise metrics - TaskTypeExpertise model tracking success_rate, confidence, learning curves - Recency bias weighting: recent 7 days weighted 3x higher (exponential decay) - Confidence scoring prevents overfitting: min(1.0, executions / 20) - Learning curves computed from daily execution windows ### Agent Scoring Service (✅ Complete) - Unified AgentScore combining SwarmCoordinator + learning profiles - Scoring formula: 0.3base + 0.5expertise + 0.2*confidence - Rank agents by combined score for intelligent assignment - Support for recency-biased scoring (recent_success_rate) - Methods: rank_agents, select_best, rank_agents_with_recency ### KG Integration (✅ Complete) - KGPersistence::get_executions_for_task_type() - query by agent + task type - KGPersistence::get_agent_executions() - all executions for agent - Coordinator::load_learning_profile_from_kg() - core KG→Learning integration - Coordinator::load_all_learning_profiles() - batch load for multiple agents - Convert PersistedExecution → ExecutionData for learning calculations ### Agent Assignment Integration (✅ Complete) - AgentCoordinator uses learning profiles for task assignment - extract_task_type() infers task type from title/description - assign_task() scores candidates using AgentScoringService - Fallback to load-based selection if no learning data available - Learning profiles stored in coordinator.learning_profiles RwLock ### Profile Adapter Enhancements (✅ Complete) - create_learning_profile() - initialize empty profiles - add_task_type_expertise() - set task-type expertise - update_profile_with_learning() - update swarm profiles from learning ## Files Modified ### vapora-knowledge-graph/src/persistence.rs (+30 lines) - get_executions_for_task_type(agent_id, task_type, limit) - get_agent_executions(agent_id, limit) ### vapora-agents/src/coordinator.rs (+100 lines) - load_learning_profile_from_kg() - core KG integration method - load_all_learning_profiles() - batch loading for agents - assign_task() already uses learning-based scoring via AgentScoringService ### Existing Complete Implementation - vapora-knowledge-graph/src/learning.rs - calculation functions - vapora-agents/src/learning_profile.rs - data structures and expertise - vapora-agents/src/scoring.rs - unified scoring service - vapora-agents/src/profile_adapter.rs - adapter methods ## Tests Passing - learning_profile: 7 tests ✅ - scoring: 5 tests ✅ - profile_adapter: 6 tests ✅ - coordinator: learning-specific tests ✅ ## Data Flow 1. Task arrives → AgentCoordinator::assign_task() 2. Extract task_type from description 3. Query KG for task-type executions (load_learning_profile_from_kg) 4. Calculate expertise with recency bias 5. Score candidates (SwarmCoordinator + learning) 6. Assign to top-scored agent 7. Execution result → KG → Update learning profiles ## Key Design Decisions ✅ Recency bias: 7-day half-life with 3x weight for recent performance ✅ Confidence scoring: min(1.0, total_executions / 20) prevents overfitting ✅ Hierarchical scoring: 30% base load, 50% expertise, 20% confidence ✅ KG query limit: 100 recent executions per task-type for performance ✅ Async loading: load_learning_profile_from_kg supports concurrent loads ## Next: Phase 5.4 - Cost Optimization Ready to implement budget enforcement and cost-aware provider selection. 2026-01-11 13:03:53 +00:00			`let schema = import "./schema.ncl" in`

			`{`
			`role = "developer",`
			`name = "Senior Rust Developer",`
			`llm = {`
			`provider = "claude",`
			`model = "claude-sonnet-4-5",`
			`max_tokens = 8192,`
			`temperature = 0.3,`
			`},`
			`capabilities = [`
			`"code_generation",`
			`"refactoring",`
			`"bug_fixing",`
			`"optimization",`
			`"testing",`
			`],`
			`system_prompt = "You are a senior Rust developer with deep expertise in systems programming, async runtimes, and production-quality code. You follow all Microsoft Rust Guidelines and write idiomatic, safe, and performant code. Never use todo!(), unimplemented!(), or panic!(). Always handle errors properly. Write comprehensive tests for all functionality.",`
			`modifies_code = true,`
			`max_concurrent_tasks = 5,`
			`enabled = true,`
			`} \| schema.AgentDefinition`