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import os
import pickle
import logging
import time
from typing import List, Optional, Dict, Any, Iterable, Tuple
import requests
import faiss
import json
from llama_index.core import VectorStoreIndex
from llama_index.core.schema import TextNode
from llama_index.vector_stores.faiss import FaissVectorStore
from llama_index.embeddings.huggingface import HuggingFaceEmbedding
from sentence_transformers.util import cos_sim
# === Logger configuration ===
logger = logging.getLogger("RAGEngine")
logger.setLevel(logging.INFO)
handler = logging.StreamHandler()
formatter = logging.Formatter("[%(asctime)s] %(levelname)s - %(message)s")
handler.setFormatter(formatter)
if not logger.handlers:
logger.addHandler(handler)
MAX_TOKENS = 64
DEFAULT_STOPS = ["### Réponse:", "\n\n", "###"]
class OllamaClient:
def __init__(self, model: str, host: Optional[str] = None, timeout: int = 300):
self.model = model
self.host = host or os.getenv("OLLAMA_HOST", "http://localhost:11434")
self.timeout = timeout
self._gen_url = self.host.rstrip("/") + "/api/generate"
def generate(self, prompt: str, stop: Optional[List[str]] = None,
max_tokens: Optional[int] = None, stream: bool = False,
options: Optional[Dict[str, Any]] = None, raw: bool = False) -> str | Iterable[str]:
payload: Dict[str, Any] = {
"model": self.model,
"prompt": prompt,
"stream": stream,
}
if raw:
payload["raw"] = True
if stop:
payload["stop"] = stop
if max_tokens is not None:
payload["num_predict"] = int(max_tokens)
# ❌ AUCUNE options → laisser Ollama auto-tuner
if stream:
with requests.post(self._gen_url, json=payload, stream=True, timeout=self.timeout) as r:
r.raise_for_status()
for line in r.iter_lines(decode_unicode=True):
if not line:
continue
try:
data = json.loads(line)
except Exception:
continue
if "response" in data and not data.get("done"):
yield data["response"]
if data.get("done"):
break
return
r = requests.post(self._gen_url, json=payload, timeout=self.timeout)
r.raise_for_status()
data = r.json()
return data.get("response", "")
class RAGEngine:
def __init__(self, model_name: str, vector_path: str, index_path: str,
model_threads: int = 4, ollama_host: Optional[str] = None,
ollama_opts: Optional[Dict[str, Any]] = None):
logger.info(f"🔎 rag_model_ollama source: {__file__}")
logger.info("📦 Initialisation du moteur (lazy RAG)...")
# -- LLM prêt tout de suite
self.llm = OllamaClient(model=model_name, host=ollama_host)
# -- Chemins pour lazy load
self.vector_path = vector_path
self.index_path = index_path
# -- Objets RAG, chargés plus tard
self.embed_model: Optional[HuggingFaceEmbedding] = None
self.index: Optional[VectorStoreIndex] = None
self._loaded = False
logger.info("✅ Moteur initialisé (sans charger FAISS ni chunks).")
# ❌ Pas de warmup “génération” ici ; le premier appel LLM sera rapide.
# (Si tu veux : décommente ce mini warmup 1 token)
# try:
# list(self._complete_stream("Bonjour", max_tokens=1))
# except Exception as e:
# logger.warning(f"Warmup échoué : {e}")
# ---------- Lazy loader ----------
def _ensure_loaded(self):
if self._loaded:
return
t0 = time.perf_counter()
logger.info("⏳ Chargement lazy des données RAG (FAISS + chunks + embeddings)...")
# 1) Charger les chunks (pickle)
with open(self.vector_path, "rb") as f:
chunk_texts: List[str] = pickle.load(f)
nodes = [TextNode(text=chunk) for chunk in chunk_texts]
# 2) Charger l'index FAISS
faiss_index = faiss.read_index(self.index_path)
vector_store = FaissVectorStore(faiss_index=faiss_index)
# 3) Embedding model
self.embed_model = HuggingFaceEmbedding(model_name="intfloat/multilingual-e5-base")
# 4) Construire l'index LlamaIndex
self.index = VectorStoreIndex(nodes=nodes, embed_model=self.embed_model, vector_store=vector_store)
self._loaded = True
logger.info(f"✅ RAG chargé en {time.perf_counter() - t0:.2f}s (lazy).")
# ---------- Génération ----------
def _complete_stream(self, prompt: str, stop: Optional[List[str]] = None,
max_tokens: int = MAX_TOKENS, raw: bool = False):
return self.llm.generate(prompt=prompt, stop=stop, max_tokens=max_tokens,
stream=True, raw=raw)
def _complete(self, prompt: str, stop: Optional[List[str]] = None,
max_tokens: int = 128, raw: bool = False) -> str:
text = self.llm.generate(prompt=prompt, stop=stop, max_tokens=max_tokens,
stream=False, raw=raw)
return (text or "").strip()
# ---------- Heuristiques légères ----------
def _is_greeting(self, text: str) -> bool:
s = text.lower().strip()
return s in {"bonjour", "salut", "hello", "bonsoir", "hi", "coucou", "yo"} or len(s.split()) <= 2
def _should_use_rag_fast(self, question: str) -> bool:
"""Heuristique avant de charger RAG : éviter de charger pour une question triviale."""
q = question.lower()
# Mots-clés “doc”, “procédure”, etc.
keywords = ("document", "docs", "procédure", "politique", "policy", "manuel", "guide", "pdf", "selon", "dans le contexte")
if any(k in q for k in keywords):
return True
# Longueur : si question courte, reste LLM
if len(q.split()) <= 7:
return False
# Par défaut, pour les questions moyennes/longues → on utilisera RAG
return True
def _decide_mode(self, scores: List[float], tau: float = 0.32, is_greeting: bool = False) -> str:
if is_greeting:
return "llm"
top = scores[0] if scores else 0.0
return "rag" if top >= tau else "llm"
# ---------- Récupération ----------
def get_adaptive_top_k(self, question: str) -> int:
q = question.lower()
if len(q.split()) <= 7:
top_k = 8
elif any(w in q for w in ["liste", "résume", "quels sont", "explique", "comment"]):
top_k = 10
else:
top_k = 8
logger.info(f"🔢 top_k déterminé automatiquement : {top_k}")
return top_k
def rerank_nodes(self, question: str, retrieved_nodes, top_k: int = 3) -> Tuple[List[float], List[TextNode]]:
logger.info(f"🔍 Re-ranking des {len(retrieved_nodes)} chunks pour : « {question} »")
q_emb = self.embed_model.get_query_embedding(question)
scored_nodes: List[Tuple[float, TextNode]] = []
for node in retrieved_nodes:
chunk_emb = self.embed_model.get_text_embedding(node.get_content())
score = cos_sim(q_emb, chunk_emb).item()
scored_nodes.append((score, node))
ranked = sorted(scored_nodes, key=lambda x: x[0], reverse=True)
top = ranked[:top_k]
return [s for s, _ in top], [n for _, n in top]
def retrieve_context(self, question: str, top_k: int = 3) -> Tuple[str, List[TextNode], List[float]]:
self._ensure_loaded()
retriever = self.index.as_retriever(similarity_top_k=top_k)
retrieved_nodes = retriever.retrieve(question)
scores, nodes = self.rerank_nodes(question, retrieved_nodes, top_k)
context = "\n\n".join(n.get_content()[:500] for n in nodes)
return context, nodes, scores
# ---------- API publique ----------
def ask(self, question: str, allow_fallback: bool = False) -> str:
logger.info(f"💬 [Non-stream] Question reçue : {question}")
is_hello = self._is_greeting(question)
# ⚡ Heuristique avant de charger RAG
if not is_hello and (self._loaded or self._should_use_rag_fast(question)):
top_k = self.get_adaptive_top_k(question)
context, _, scores = self.retrieve_context(question, top_k)
mode = self._decide_mode(scores, tau=0.32, is_greeting=is_hello)
if mode == "rag":
prompt = (
"Instruction: Réponds uniquement à partir du contexte. "
"Si la réponse n'est pas déductible, réponds exactement: \"Information non présente dans le contexte.\""
f"\n\nContexte :\n{context}\n\nQuestion : {question}\nRéponse :"
)
return self._complete(prompt, stop=DEFAULT_STOPS, raw=False)
# LLM pur
prompt_llm = (
"Réponds brièvement et précisément en français.\n"
f"Question : {question}\nRéponse :"
)
return self._complete(prompt_llm, stop=DEFAULT_STOPS, raw=False)
def ask_stream(self, question: str, allow_fallback: bool = False) -> Iterable[str]:
logger.info(f"💬 [Stream] Question reçue : {question}")
is_hello = self._is_greeting(question)
# ⚡ Heuristique avant de charger RAG
if not is_hello and (self._loaded or self._should_use_rag_fast(question)):
top_k = self.get_adaptive_top_k(question)
context, _, scores = self.retrieve_context(question, top_k)
mode = self._decide_mode(scores, tau=0.32, is_greeting=is_hello)
if mode == "rag":
prompt = (
"Instruction: Réponds uniquement à partir du contexte. "
"Si la réponse n'est pas déductible, réponds exactement: \"Information non présente dans le contexte.\""
f"\n\nContexte :\n{context}\n\nQuestion : {question}\nRéponse :"
)
logger.info("📡 Début streaming (RAG)...")
for token in self._complete_stream(prompt, stop=DEFAULT_STOPS, raw=False):
yield token
logger.info("📡 Fin streaming (RAG).")
return
# LLM pur
prompt_llm = (
"Réponds brièvement et précisément en français.\n"
f"Question : {question}\nRéponse :"
)
logger.info("📡 Début streaming (LLM pur)...")
for token in self._complete_stream(prompt_llm, stop=DEFAULT_STOPS, raw=False):
yield token
logger.info("📡 Fin streaming (LLM pur).") |