# app/rag_system.py from __future__ import annotations import os, re from pathlib import Path from typing import List, Tuple import faiss import numpy as np from pypdf import PdfReader from sentence_transformers import SentenceTransformer ROOT_DIR = Path(__file__).resolve().parent.parent DATA_DIR = ROOT_DIR / "data" UPLOAD_DIR = DATA_DIR / "uploads" INDEX_DIR = DATA_DIR / "index" CACHE_DIR = Path(os.getenv("HF_HOME", str(ROOT_DIR / ".cache"))) for d in (DATA_DIR, UPLOAD_DIR, INDEX_DIR, CACHE_DIR): d.mkdir(parents=True, exist_ok=True) MODEL_NAME = os.getenv("EMBED_MODEL", "sentence-transformers/all-MiniLM-L6-v2") # Output dili – EN üçün "en" saxla (default en) OUTPUT_LANG = os.getenv("OUTPUT_LANG", "en").lower() # --- util funksiyalar --- NUM_PAT = re.compile(r"(\d+([.,]\d+)?|%|m²|AZN|usd|eur|\bset\b|\bmt\b)", re.IGNORECASE) def _split_sentences(text: str) -> List[str]: return [s.strip() for s in re.split(r'(?<=[\.\!\?])\s+|[\r\n]+', text) if s.strip()] def _mostly_numeric(s: str) -> bool: # daha aqressiv threshold alnum = [c for c in s if c.isalnum()] if not alnum: return True digits = sum(c.isdigit() for c in alnum) return digits / max(1, len(alnum)) > 0.3 def _tabular_like(s: str) -> bool: # rəqəmlər/ölçülər/valyuta bol olan sətirləri at hits = len(NUM_PAT.findall(s)) return hits >= 2 or "Page" in s or len(s) < 20 def _clean_for_summary(text: str) -> str: lines = [] for ln in text.splitlines(): t = " ".join(ln.split()) if not t: continue if _mostly_numeric(t) or _tabular_like(t): continue lines.append(t) return " ".join(lines) class SimpleRAG: def __init__( self, index_path: Path = INDEX_DIR / "faiss.index", meta_path: Path = INDEX_DIR / "meta.npy", model_name: str = MODEL_NAME, cache_dir: Path = CACHE_DIR, ): self.index_path = Path(index_path) self.meta_path = Path(meta_path) self.model_name = model_name self.cache_dir = Path(cache_dir) self.model = SentenceTransformer(self.model_name, cache_folder=str(self.cache_dir)) self.embed_dim = self.model.get_sentence_embedding_dimension() # translator lazy-load self._translator = None self.index: faiss.Index = None # type: ignore self.chunks: List[str] = [] self._load() # ---- translator (az->en) ---- def _translate_to_en(self, texts: List[str]) -> List[str]: if OUTPUT_LANG != "en" or not texts: return texts try: if self._translator is None: from transformers import pipeline # Helsinki-NLP az->en self._translator = pipeline( "translation", model="Helsinki-NLP/opus-mt-az-en", cache_dir=str(self.cache_dir), device=-1, ) outs = self._translator(texts, max_length=400) return [o["translation_text"] for o in outs] except Exception: # tərcümə alınmasa, orijinalı qaytar return texts def _load(self) -> None: if self.meta_path.exists(): try: self.chunks = np.load(self.meta_path, allow_pickle=True).tolist() except Exception: self.chunks = [] if self.index_path.exists(): try: idx = faiss.read_index(str(self.index_path)) self.index = idx if getattr(idx, "d", None) == self.embed_dim else faiss.IndexFlatIP(self.embed_dim) except Exception: self.index = faiss.IndexFlatIP(self.embed_dim) else: self.index = faiss.IndexFlatIP(self.embed_dim) def _persist(self) -> None: faiss.write_index(self.index, str(self.index_path)) np.save(self.meta_path, np.array(self.chunks, dtype=object)) @staticmethod def _pdf_to_texts(pdf_path: Path, step: int = 800) -> List[str]: reader = PdfReader(str(pdf_path)) pages = [] for p in reader.pages: t = p.extract_text() or "" if t.strip(): pages.append(t) chunks: List[str] = [] for txt in pages: for i in range(0, len(txt), step): part = txt[i:i+step].strip() if part: chunks.append(part) return chunks def add_pdf(self, pdf_path: Path) -> int: texts = self._pdf_to_texts(pdf_path) if not texts: return 0 emb = self.model.encode(texts, convert_to_numpy=True, normalize_embeddings=True, show_progress_bar=False) self.index.add(emb.astype(np.float32)) self.chunks.extend(texts) self._persist() return len(texts) def search(self, query: str, k: int = 5) -> List[Tuple[str, float]]: if self.index is None or self.index.ntotal == 0: return [] q = self.model.encode([query], convert_to_numpy=True, normalize_embeddings=True).astype(np.float32) D, I = self.index.search(q, min(k, max(1, self.index.ntotal))) out: List[Tuple[str, float]] = [] if I.size > 0 and self.chunks: for idx, score in zip(I[0], D[0]): if 0 <= idx < len(self.chunks): out.append((self.chunks[idx], float(score))) return out def synthesize_answer(self, question: str, contexts: List[str], max_sentences: int = 5) -> str: if not contexts: return "No relevant context found. Please upload a PDF or ask a more specific question." # Candidate sentences (clean + split) candidates: List[str] = [] for c in contexts[:5]: cleaned = _clean_for_summary(c) for s in _split_sentences(cleaned): if 40 <= len(s) <= 240 and not _tabular_like(s): candidates.append(s) if not candidates: return "The document appears largely tabular/numeric; couldn't extract readable sentences." # Rank by similarity q_emb = self.model.encode([question], convert_to_numpy=True, normalize_embeddings=True).astype(np.float32) cand_emb = self.model.encode(candidates, convert_to_numpy=True, normalize_embeddings=True).astype(np.float32) scores = (cand_emb @ q_emb.T).ravel() order = np.argsort(-scores) # Pick top sentences with dedup by lowercase selected: List[str] = [] seen = set() for i in order: s = candidates[i].strip() key = s.lower() if key in seen: continue seen.add(key) selected.append(s) if len(selected) >= max_sentences: break # Translate to EN if needed if OUTPUT_LANG == "en": selected = self._translate_to_en(selected) bullets = "\n".join(f"- {s}" for s in selected) return f"Answer (based on document context):\n{bullets}" def synthesize_answer(question: str, contexts: List[str]) -> str: return SimpleRAG().synthesize_answer(question, contexts) __all__ = ["SimpleRAG", "synthesize_answer", "DATA_DIR", "UPLOAD_DIR", "INDEX_DIR", "CACHE_DIR", "MODEL_NAME"]