quantum-ai2 / src /core /adapter_engine.py
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"""
Core Adapter Engine for JARVIS-2v
Implements modular AI adapters with graph relationships and Y/Z/X bit routing
"""
import json
import os
import time
import uuid
from dataclasses import dataclass, field
from typing import Dict, List, Optional, Set, Tuple, Any
from enum import Enum
from pathlib import Path
class AdapterStatus(Enum):
ACTIVE = "active"
FROZEN = "frozen"
DEPRECATED = "deprecated"
@dataclass
class Adapter:
"""Modular AI adapter with metadata, metrics, and Y/Z/X bit patterns"""
id: str
task_tags: List[str]
y_bits: List[int] # task/domain bits
z_bits: List[int] # difficulty/precision bits
x_bits: List[int] # experimental toggles
parameters: Dict[str, Any] = field(default_factory=dict)
rules: List[str] = field(default_factory=list)
prompts: List[str] = field(default_factory=list)
parent_ids: List[str] = field(default_factory=list)
child_ids: List[str] = field(default_factory=list)
created_at: float = field(default_factory=time.time)
last_used: float = field(default_factory=time.time)
success_count: int = 0
total_calls: int = 0
domains: Set[str] = field(default_factory=set)
status: AdapterStatus = AdapterStatus.ACTIVE
version: int = 1
def to_dict(self) -> Dict[str, Any]:
"""Serialize adapter to dictionary"""
return {
"id": self.id,
"task_tags": self.task_tags,
"y_bits": self.y_bits,
"z_bits": self.z_bits,
"x_bits": self.x_bits,
"parameters": self.parameters,
"rules": self.rules,
"prompts": self.prompts,
"parent_ids": self.parent_ids,
"child_ids": self.child_ids,
"created_at": self.created_at,
"last_used": self.last_used,
"success_count": self.success_count,
"total_calls": self.total_calls,
"domains": list(self.domains),
"status": self.status.value,
"version": self.version
}
@classmethod
def from_dict(cls, data: Dict[str, Any]) -> "Adapter":
"""Deserialize adapter from dictionary"""
return cls(
id=data["id"],
task_tags=data.get("task_tags", []),
y_bits=data.get("y_bits", [0] * 16),
z_bits=data.get("z_bits", [0] * 8),
x_bits=data.get("x_bits", [0] * 8),
parameters=data.get("parameters", {}),
rules=data.get("rules", []),
prompts=data.get("prompts", []),
parent_ids=data.get("parent_ids", []),
child_ids=data.get("child_ids", []),
created_at=data.get("created_at", time.time()),
last_used=data.get("last_used", time.time()),
success_count=data.get("success_count", 0),
total_calls=data.get("total_calls", 0),
domains=set(data.get("domains", [])),
status=AdapterStatus(data.get("status", "active")),
version=data.get("version", 1)
)
class AdapterGraph:
"""Simplified adapter graph without heavy dependencies"""
def __init__(self, storage_path: str):
self.storage_path = Path(storage_path)
self.nodes: Dict[str, Dict[str, Any]] = {}
self.edges: Dict[str, List[Tuple[str, float]]] = {}
self._load_graph()
def _load_graph(self):
"""Load adapter graph from disk."""
if not self.storage_path.exists():
return
try:
with open(self.storage_path, "r") as f:
data = json.load(f)
except (json.JSONDecodeError, FileNotFoundError):
return
# Native lightweight format.
if isinstance(data.get("nodes"), dict) and isinstance(data.get("edges"), dict):
self.nodes = data.get("nodes", {})
self.edges = data.get("edges", {})
return
# Backward compatibility: networkx node_link_data format.
nodes_list = data.get("nodes")
links_list = data.get("links") or data.get("links")
if isinstance(nodes_list, list) and isinstance(links_list, list):
self.nodes = {}
for node in nodes_list:
node_id = node.get("id") or node.get("key")
if node_id is None:
continue
self.nodes[str(node_id)] = dict(node)
self.edges = {}
for link in links_list:
src = link.get("source")
tgt = link.get("target")
if src is None or tgt is None:
continue
w = float(link.get("weight", 1.0))
self.edges.setdefault(str(src), []).append([str(tgt), w])
return
def _save_graph(self):
"""Save adapter graph to disk"""
self.storage_path.parent.mkdir(parents=True, exist_ok=True)
data = {
"nodes": self.nodes,
"edges": self.edges
}
with open(self.storage_path, 'w') as f:
json.dump(data, f, indent=2)
def add_adapter(self, adapter: Adapter):
"""Add adapter as node to graph"""
self.nodes[adapter.id] = adapter.to_dict()
self._save_graph()
def add_dependency(self, parent_id: str, child_id: str, weight: float = 1.0):
"""Add dependency edge between adapters"""
if parent_id not in self.edges:
self.edges[parent_id] = []
self.edges[parent_id].append((child_id, weight))
self._save_graph()
def get_adapter(self, adapter_id: str) -> Optional[Adapter]:
"""Retrieve adapter from graph"""
if adapter_id in self.nodes:
return Adapter.from_dict(self.nodes[adapter_id])
return None
def find_best_path(self, target_adapter_id: str) -> List[str]:
"""Find optimal adapter path"""
if target_adapter_id not in self.nodes:
return []
adapter_data = self.nodes[target_adapter_id]
if adapter_data.get("status") == AdapterStatus.ACTIVE.value:
return [target_adapter_id]
return []
def get_related_adapters(self, adapter_id: str, depth: int = 1) -> List[str]:
"""Get related adapters within N hops"""
if adapter_id not in self.edges:
return []
related = set()
for child_id, _ in self.edges.get(adapter_id, []):
related.add(child_id)
if depth > 1:
for sub_child in self.get_related_adapters(child_id, depth - 1):
related.add(sub_child)
return list(related)
class YZXBitRouter:
"""Y/Z/X bit-based routing system for adapter selection"""
def __init__(self, y_bits: int = 16, z_bits: int = 8, x_bits: int = 8):
self.y_size = y_bits
self.z_size = z_bits
self.x_size = x_bits
self.persistence_file = Path("./bit_patterns.json")
self.patterns = self._load_patterns()
def _load_patterns(self) -> Dict[str, Any]:
"""Load bit patterns from disk"""
if self.persistence_file.exists():
try:
with open(self.persistence_file, 'r') as f:
return json.load(f)
except json.JSONDecodeError:
return {}
return {}
def _save_patterns(self):
"""Save bit patterns to disk"""
with open(self.persistence_file, 'w') as f:
json.dump(self.patterns, f, indent=2)
def infer_bits_from_input(self, prompt: str, context: Dict[str, Any]) -> Tuple[List[int], List[int], List[int]]:
"""
Infer Y/Z/X bit patterns from input prompt and context
Uses semantic analysis to assign bit values
"""
# Simple rule-based inference
prompt_lower = prompt.lower()
# Y-bits: task/domain classification
y_bits = [0] * self.y_size
if any(word in prompt_lower for word in ["code", "program", "function", "debug"]):
y_bits[0] = 1 # programming domain
if any(word in prompt_lower for word in ["math", "calculate", "equation", "number"]):
y_bits[1] = 1 # mathematics domain
if any(word in prompt_lower for word in ["quantum", "physics", "experiment", "simulation"]):
y_bits[2] = 1 # scientific domain
if any(word in prompt_lower for word in ["explain", "describe", "what", "how"]):
y_bits[3] = 1 # explanation domain
# Z-bits: difficulty/precision
z_bits = [0] * self.z_size
word_count = len(prompt.split())
if word_count > 100:
z_bits[0] = 1 # long input
if any(word in prompt_lower for word in ["complex", "advanced", "expert"]):
z_bits[1] = 1 # high complexity
# X-bits: experimental toggles
x_bits = [0] * self.x_size
if "quantum_sim" in context.get("features", []):
x_bits[0] = 1 # use quantum simulation
if "recall_only" in context.get("features", []):
x_bits[1] = 1 # use memory only
return y_bits, z_bits, x_bits
def select_adapters(self, y_bits: List[int], z_bits: List[int], x_bits: List[int],
available_adapters: List[Adapter]) -> List[Adapter]:
"""
Select best adapters based on bit patterns
Uses weighted matching algorithm
"""
scored_adapters = []
for adapter in available_adapters:
if adapter.status != AdapterStatus.ACTIVE:
continue
# Calculate bit pattern similarity
y_match = self._bit_similarity(y_bits, adapter.y_bits)
z_match = self._bit_similarity(z_bits, adapter.z_bits)
x_match = self._bit_similarity(x_bits, adapter.x_bits)
# Weighted score
score = (y_match * 0.5 + z_match * 0.3 + x_match * 0.2)
# Boost by success rate
if adapter.total_calls > 0:
success_rate = adapter.success_count / adapter.total_calls
score *= (0.8 + success_rate * 0.2)
scored_adapters.append((adapter, score))
# Sort by score and return top adapters
scored_adapters.sort(key=lambda x: x[1], reverse=True)
return [adapter for adapter, _ in scored_adapters[:3]] # Top 3 adapters
def _bit_similarity(self, bits1: List[int], bits2: List[int]) -> float:
"""Calculate similarity between two bit vectors"""
if len(bits1) != len(bits2):
return 0.0
matching = sum(1 for b1, b2 in zip(bits1, bits2) if b1 == b2 and b1 == 1)
total_ones = sum(bits1) + sum(bits2)
if total_ones == 0:
return 1.0
return (2 * matching) / total_ones
class AdapterEngine:
"""Main adapter engine for JARVIS-2v"""
def __init__(self, config: Dict[str, Any]):
self.config = config
self.adapters_path = Path(config.get("adapters", {}).get("storage_path", "./adapters"))
self.graph_path = config.get("adapters", {}).get("graph_path", "./adapters_graph.json")
self.auto_create = config.get("adapters", {}).get("auto_create", True)
self.freeze_after_creation = config.get("adapters", {}).get("freeze_after_creation", True)
# Initialize components
self.adapter_graph = AdapterGraph(self.graph_path)
self.bit_router = YZXBitRouter(
config.get("bits", {}).get("y_bits", 16),
config.get("bits", {}).get("z_bits", 8),
config.get("bits", {}).get("x_bits", 8)
)
self.adapters_path.mkdir(parents=True, exist_ok=True)
def create_adapter(self, task_tags: List[str], y_bits: List[int], z_bits: List[int],
x_bits: List[int], parameters: Dict[str, Any] = None,
parent_ids: List[str] = None) -> Adapter:
"""Create new adapter with non-destructive learning"""
adapter_id = f"adapter_{uuid.uuid4().hex[:8]}"
adapter = Adapter(
id=adapter_id,
task_tags=task_tags,
y_bits=y_bits,
z_bits=z_bits,
x_bits=x_bits,
parameters=parameters or {},
parent_ids=parent_ids or []
)
# Add to graph
self.adapter_graph.add_adapter(adapter)
# Add parent relationships
for parent_id in parent_ids or []:
self.adapter_graph.add_dependency(parent_id, adapter_id)
# Freeze if enabled
if self.freeze_after_creation:
adapter.status = AdapterStatus.FROZEN
# Persist to disk
self._save_adapter(adapter)
return adapter
def get_adapter(self, adapter_id: str) -> Optional[Adapter]:
"""Retrieve adapter by ID"""
return self.adapter_graph.get_adapter(adapter_id) or self._load_adapter(adapter_id)
def list_adapters(self, status: AdapterStatus = None) -> List[Adapter]:
"""List all adapters, optionally filtered by status"""
adapters = []
for adapter_file in self.adapters_path.glob("*.json"):
adapter = self._load_adapter(adapter_file.stem)
if adapter and (status is None or adapter.status == status):
adapters.append(adapter)
return adapters
def route_task(self, input_text: str, context: Dict[str, Any]) -> List[Adapter]:
"""
Route task to appropriate adapters using Y/Z/X bits
Returns sorted list of adapters by relevance
"""
# Infer bit patterns
y_bits, z_bits, x_bits = self.bit_router.infer_bits_from_input(input_text, context)
# Get available adapters
available_adapters = self.list_adapters(status=AdapterStatus.ACTIVE)
# Select best adapters
selected_adapters = self.bit_router.select_adapters(y_bits, z_bits, x_bits, available_adapters)
# Log routing decision
print(f"🔀 Routing: Y={y_bits[:4]}... Z={z_bits[:4]}... X={x_bits[:4]}... -> {[a.id for a in selected_adapters[:2]]}")
return selected_adapters
def freeze_adapter(self, adapter_id: str) -> bool:
"""Freeze adapter to prevent further modification"""
adapter = self.get_adapter(adapter_id)
if adapter:
adapter.status = AdapterStatus.FROZEN
self._save_adapter(adapter)
self.adapter_graph.add_adapter(adapter)
return True
return False
def _save_adapter(self, adapter: Adapter):
"""Save adapter to disk"""
adapter_path = self.adapters_path / f"{adapter.id}.json"
with open(adapter_path, 'w') as f:
json.dump(adapter.to_dict(), f, indent=2)
def _load_adapter(self, adapter_id: str) -> Optional[Adapter]:
"""Load adapter from disk"""
adapter_path = self.adapters_path / f"{adapter_id}.json"
if adapter_path.exists():
try:
with open(adapter_path, 'r') as f:
data = json.load(f)
return Adapter.from_dict(data)
except json.JSONDecodeError:
return None
return None
class QuantumArtifact:
"""Synthetic quantum experiment artifact with adapter linkage"""
def __init__(
self,
artifact_id: str,
experiment_type: str,
config: Dict[str, Any],
results: Dict[str, Any],
linked_adapter_ids: List[str],
created_at: Optional[float] = None,
metadata: Optional[Dict[str, Any]] = None,
):
self.artifact_id = artifact_id
self.experiment_type = experiment_type
self.config = config
self.results = results
self.linked_adapter_ids = linked_adapter_ids
self.created_at = created_at if created_at is not None else time.time()
self.metadata = metadata or {
"synthetic_simulation": True,
"lab_data_source": "simulated",
}
def to_dict(self) -> Dict[str, Any]:
return {
"artifact_id": self.artifact_id,
"experiment_type": self.experiment_type,
"config": self.config,
"results": self.results,
"linked_adapter_ids": self.linked_adapter_ids,
"created_at": self.created_at,
"metadata": self.metadata,
}
__all__ = ["Adapter", "AdapterGraph", "YZXBitRouter", "AdapterEngine", "QuantumArtifact", "AdapterStatus"]