anonymisation/anonymizer_core_refactored_onnx.py

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Core d'anonymisation (v2.1) + NER ONNX (optionnel, narratif uniquement)
------------------------------------------------------------------------
- Extraction 2 passes (pdfplumber -> pdfminer) + fallback 3e passe PyMuPDF si texte pauvre ou (cid:xx)
- Règles regex (PII critiques) + clé:valeur (masquer valeur seulement) + overrides YAML
- Rescan sécurité **sélectif** (EMAIL/TEL/IBAN/NIR), jamais dans [TABLES]
- Redaction PDF (vector/raster) via PyMuPDF
- NER ONNX **optionnel** (CamemBERT family) appliqué **après** les règles, sur le narratif

Dépendances : pdfplumber, pdfminer.six, pillow, pymupdf, pyyaml (optionnel), transformers, optimum, onnxruntime
"""
from __future__ import annotations
import io
import json
import re
from dataclasses import dataclass, field
from pathlib import Path
from typing import List, Dict, Tuple, Optional, Any

import pdfplumber
from pdfminer.high_level import extract_text as pdfminer_extract_text
from pdfminer.layout import LAParams
from PIL import Image, ImageDraw

try:
    import fitz  # PyMuPDF
except Exception:
    fitz = None

try:
    import yaml  # PyYAML for dictionaries
except Exception:
    yaml = None

try:
    from doctr.models import ocr_predictor as _doctr_ocr_predictor
    _DOCTR_AVAILABLE = True
except Exception:
    _doctr_ocr_predictor = None  # type: ignore
    _DOCTR_AVAILABLE = False

# NER manager (facultatif)
try:
    from ner_manager_onnx import NerModelManager, NerThresholds
except Exception:
    NerModelManager = None  # type: ignore
    NerThresholds = None  # type: ignore

# EDS-Pseudo manager (facultatif)
try:
    from eds_pseudo_manager import EdsPseudoManager
except Exception:
    EdsPseudoManager = None  # type: ignore

# ----------------- Defaults & Config -----------------
DEFAULTS_CFG = {
    "version": 1,
    "encoding": "utf-8",
    "normalization": "NFKC",
    "whitelist": {
        "sections_titres": ["DIM", "GHM", "GHS", "RUM", "COMPTE", "RENDU", "DIAGNOSTIC"],
        "noms_maj_excepts": ["Médecin DIM", "Praticien conseil"],
        "org_gpe_keep": True,
    },
    "blacklist": {
        "force_mask_terms": [],
        "force_mask_regex": [],
    },
    "kv_labels_preserve": ["FINESS", "IPP", "N° OGC", "Etablissement"],
    "regex_overrides": [
        {
            "name": "OGC_court",
            "pattern": r"\b(?:N°\s*)?OGC\s*[:\-]?\s*([A-Za-z0-9\-]{1,3})\b",
            "placeholder": "[OGC]",
            "flags": ["IGNORECASE"],
        }
    ],
    "flags": {
        "case_insensitive": True,
        "unicode_word_boundaries": True,
        "regex_engine": "python",
    },
}

PLACEHOLDERS = {
    "EMAIL": "[EMAIL]",
    "TEL": "[TEL]",
    "IBAN": "[IBAN]",
    "NIR": "[NIR]",
    "IPP": "[IPP]",
    "FINESS": "[FINESS]",
    "OGC": "[OGC]",
    "NOM": "[NOM]",
    "VILLE": "[VILLE]",
    "ETAB": "[ETABLISSEMENT]",
    "MASK": "[MASK]",
    "DATE": "[DATE]",
    "DATE_NAISSANCE": "[DATE_NAISSANCE]",
    "ADRESSE": "[ADRESSE]",
    "CODE_POSTAL": "[CODE_POSTAL]",
    "AGE": "[AGE]",
    "DOSSIER": "[DOSSIER]",
    "NDA": "[NDA]",
}

CRITICAL_PII_KEYS = {"EMAIL", "TEL", "IBAN", "NIR", "IPP", "DATE_NAISSANCE"}

# Baseline regex
RE_EMAIL = re.compile(r"[A-Za-z0-9._%+-]+@[A-Za-z0-9.-]+\.[A-Za-z]{2,}")
RE_TEL = re.compile(r"(?<!\d)(?:\+33\s?|0)\d(?:[ .-]?\d){8}(?!\d)")
RE_IBAN = re.compile(r"\b[A-Z]{2}\d{2}[A-Z0-9]{11,30}\b")
RE_IPP = re.compile(r"\bIPP\s*[:\-]?\s*([A-Za-z0-9]{6,})\b", re.IGNORECASE)
RE_FINESS = re.compile(r"\bFINESS\s*[:\-]?\s*(\d{9})\b", re.IGNORECASE)
RE_OGC = re.compile(r"\b(?:N°\s*)?OGC\s*[:\-]?\s*([A-Za-z0-9\-]{1,})\b", re.IGNORECASE)
RE_NIR = re.compile(
    r"\b([12])\s*(\d{2})\s*(0[1-9]|1[0-2]|2[AB])\s*(\d{2,3})\s*(\d{3})\s*(\d{3})\s*(\d{2})\b",
    re.IGNORECASE,
)


def validate_nir(nir_raw: str) -> bool:
    """Vérifie la clé modulo 97 d'un NIR (13 chiffres + 2 clé). Supporte la Corse (2A/2B)."""
    digits_only = re.sub(r"\s+", "", nir_raw)
    if len(digits_only) < 15:
        return False
    body_str = digits_only[:13]
    key_str = digits_only[13:15]
    # Corse : 2A → 19, 2B → 18 (pour le calcul)
    body_str_calc = body_str.upper().replace("2A", "19").replace("2B", "18")
    try:
        body_int = int(body_str_calc)
        key_int = int(key_str)
    except ValueError:
        return False
    return key_int == (97 - (body_int % 97))

RE_PERSON_CONTEXT = re.compile(
    r"(?:(?:Dr\.?|DR\.?|Docteur|Mme|MME|Madame|M\.|Mr\.?|Monsieur"
    r"|Nom\s*:\s*|Praticien|Médecin"
    r"|Rédigé\s+par|Validé\s+par|Signé\s+par|Saisi\s+par"
    r")\s+)"
    r"([A-ZÉÈÀÙÂÊÎÔÛÄËÏÖÜÇ][A-ZÉÈÀÙÂÊÎÔÛÄËÏÖÜÇa-zéèàùâêîôûäëïöüç\-\' .]+(?:\s+[A-ZÉÈÀÙÂÊÎÔÛÄËÏÖÜÇa-zéèàùâêîôûäëïöüç\-\'.]+)*)"
)
SPLITTER = re.compile(r"\s*[:|;\t]\s*")

# --- Extraction globale de noms depuis champs structurés ---
_UC_NAME_TOKEN = r"[A-ZÉÈÀÙÂÊÎÔÛÄËÏÖÜÇ][A-ZÉÈÀÙÂÊÎÔÛÄËÏÖÜÇa-zéèàùâêîôûäëïöüç\-\']+"
RE_EXTRACT_PATIENT = re.compile(
    r"Patient\(?e?\)?\s*:\s*"
    rf"((?:{_UC_NAME_TOKEN})(?:\s+(?:{_UC_NAME_TOKEN}))*)"
    r"(?=\s+Né|\s+né|\s+N°|\s*$)",
    re.MULTILINE,
)
RE_EXTRACT_REDIGE = re.compile(
    r"(?:Rédigé|Validé|Signé|Saisi)\s+par\s+"
    rf"((?:{_UC_NAME_TOKEN})(?:\s+(?:{_UC_NAME_TOKEN}))*)",
)
RE_EXTRACT_MME_MR = re.compile(
    r"(?:MME|Madame|Monsieur|Mr\.?)\s+"
    r"((?:[A-ZÉÈÀÙÂÊÎÔÛÄËÏÖÜÇ]{2,})(?:\s+[A-ZÉÈÀÙÂÊÎÔÛÄËÏÖÜÇ]{2,})*)",
)
RE_EXTRACT_DR_DEST = re.compile(
    r"(?:DR\.?|Docteur)\s+"
    rf"((?:{_UC_NAME_TOKEN})(?:\s+(?:{_UC_NAME_TOKEN}))*)",
)

CID_PATTERN = re.compile(r"\(cid:\d+\)")

# --- Nouvelles regex : dates, adresses, âges, dossiers ---
_MOIS_FR = r"(?:janvier|février|mars|avril|mai|juin|juillet|août|septembre|octobre|novembre|décembre)"
RE_DATE_NAISSANCE = re.compile(
    r"(?:n[ée]+\s+le|date\s+de\s+naissance|DDN)\s*[:\-]?\s*"
    r"(\d{1,2}[\s/.\-]\d{1,2}[\s/.\-]\d{2,4}|\d{1,2}\s+" + _MOIS_FR + r"\s+\d{4})",
    re.IGNORECASE,
)
RE_DATE = re.compile(
    r"\b(\d{1,2})\s*[/.\-]\s*(\d{1,2})\s*[/.\-]\s*(\d{4})\b"
    r"|"
    r"\b(\d{1,2})\s+" + _MOIS_FR + r"\s+(\d{4})\b",
    re.IGNORECASE,
)
RE_ADRESSE = re.compile(
    r"\b\d{1,4}[\s,]*(?:bis|ter)?\s*,?\s*"
    r"(?:rue|avenue|av\.|boulevard|bd|place|chemin|allée|impasse|route|cours|passage|square)"
    r"\s+[A-ZÉÈÀÙÂÊÎÔÛa-zéèàùâêîôûäëïöüç\s\-']{2,}",
    re.IGNORECASE,
)
RE_CODE_POSTAL = re.compile(
    r"(?:(?:code\s*postal|CP)\s*[:\-]?\s*(\d{5}))"
    r"|"
    r"(?:(\d{5})[ \t]+[A-ZÉÈÀÙ][a-zéèàùâêîôû]+(?:[\s\-][A-ZÉÈÀÙ][a-zéèàùâêîôû]+)*)",
    re.IGNORECASE,
)
RE_AGE = re.compile(
    r"(?:âg[ée]+\s+de\s+|patient(?:e)?\s+de\s+)?(\d{1,3})\s*ans\b",
    re.IGNORECASE,
)
RE_NUMERO_DOSSIER = re.compile(
    r"(?:dossier|n°\s*dossier|NDA)\s*[:\-n°]+\s*([A-Za-z0-9\-/]{4,})"
    r"|"
    r"(?:référence|réf\.)\s*[:\-n°]+\s*([A-Za-z0-9\-/]{4,})",
    re.IGNORECASE,
)

@dataclass
class PiiHit:
    page: int
    kind: str
    original: str
    placeholder: str
    bbox_hint: Optional[Tuple[float, float, float, float]] = None

@dataclass
class AnonResult:
    text_out: str
    tables_block: str
    audit: List[PiiHit] = field(default_factory=list)

# ----------------- Config loader -----------------

def load_dictionaries(config_path: Optional[Path]) -> Dict[str, Any]:
    cfg = DEFAULTS_CFG.copy()
    if config_path and config_path.exists() and yaml is not None:
        try:
            user = yaml.safe_load(config_path.read_text(encoding="utf-8")) or {}
            for k, v in user.items():
                cfg[k] = v
        except Exception:
            pass
    return cfg

# ----------------- Extraction -----------------

def extract_text_with_fallback_ocr(pdf_path: Path) -> Tuple[List[str], List[List[str]], bool]:
    """Extraction texte multi-passes avec fallback OCR (docTR).
    Retourne (pages_text, tables_lines, ocr_used).
    """
    pages_text: List[str] = []
    tables_lines: List[List[str]] = []
    ocr_used = False
    with pdfplumber.open(pdf_path) as pdf:
        for p in pdf.pages:
            t = p.extract_text(x_tolerance=2.5, y_tolerance=4.0) or ""
            pages_text.append(t)
            rows: List[str] = []
            try:
                tables = p.extract_tables()
                for tbl in tables or []:
                    for row in tbl:
                        clean = [c if c is not None else "" for c in row]
                        rows.append("\t".join(clean).strip())
            except Exception:
                pass
            tables_lines.append(rows)
    total_chars = sum(len(x or "") for x in pages_text)
    need_fallback = total_chars < 500
    if not need_fallback:
        need_fallback = any(CID_PATTERN.search(x or "") for x in pages_text)
    if need_fallback:
        text_all = pdfminer_extract_text(
            str(pdf_path),
            laparams=LAParams(char_margin=2.0, word_margin=0.1, line_margin=0.8, boxes_flow=0.5),
        )
        split = [x for x in text_all.split("\f") if x]
        if split:
            pages_text = split
    # 3e passe PyMuPDF si toujours pauvre/cid
    total_chars = sum(len(x or "") for x in pages_text)
    if (total_chars < 500 or any(CID_PATTERN.search(x or "") for x in pages_text)) and fitz is not None:
        try:
            doc = fitz.open(str(pdf_path))
            pages_text = [doc[i].get_text("text") or "" for i in range(len(doc))]
            doc.close()
        except Exception:
            pass
    # 4e passe : OCR docTR si toujours très peu de texte (PDF scanné)
    total_chars = sum(len(x or "") for x in pages_text)
    if total_chars < 200 and _DOCTR_AVAILABLE and fitz is not None:
        try:
            model = _doctr_ocr_predictor(det_arch="db_resnet50", reco_arch="crnn_vgg16_bn", pretrained=True)
            doc = fitz.open(str(pdf_path))
            ocr_pages: List[str] = []
            for i in range(len(doc)):
                pix = doc[i].get_pixmap(dpi=300)
                img = Image.frombytes("RGB", [pix.width, pix.height], pix.samples)
                import numpy as np
                result = model([np.array(img)])
                page_text = ""
                for block in result.pages[0].blocks:
                    for line in block.lines:
                        words = [w.value for w in line.words]
                        page_text += " ".join(words) + "\n"
                ocr_pages.append(page_text)
            doc.close()
            if sum(len(p) for p in ocr_pages) > total_chars:
                pages_text = ocr_pages
                ocr_used = True
        except Exception:
            pass
    return pages_text, tables_lines, ocr_used


# Alias pour compatibilité ascendante
def extract_text_three_passes(pdf_path: Path):
    pages_text, tables_lines, _ = extract_text_with_fallback_ocr(pdf_path)
    return pages_text, tables_lines

# ----------------- Helpers -----------------

def _compile_user_regex(pattern: str, flags_list: List[str]):
    flags = 0
    for f in flags_list or []:
        u = f.upper()
        if u == "IGNORECASE": flags |= re.IGNORECASE
        if u == "MULTILINE": flags |= re.MULTILINE
        if u == "DOTALL": flags |= re.DOTALL
    return re.compile(pattern, flags)


def _apply_overrides(line: str, audit: List[PiiHit], page_idx: int, cfg: Dict[str, Any]) -> str:
    for ov in cfg.get("regex_overrides", []) or []:
        pattern = ov.get("pattern"); placeholder = ov.get("placeholder", PLACEHOLDERS["MASK"]) ; name = ov.get("name", "override")
        flags_list = ov.get("flags", [])
        try:
            rx = _compile_user_regex(pattern, flags_list)
        except Exception:
            continue
        def _rep(m: re.Match):
            audit.append(PiiHit(page_idx, name, m.group(0), placeholder))
            return placeholder
        line = rx.sub(_rep, line)
    # force-mask literals
    for term in (cfg.get("blacklist", {}).get("force_mask_terms", []) or []):
        if not term: continue
        word_rx = re.compile(rf"\b{re.escape(term)}\b", re.IGNORECASE)
        if word_rx.search(line):
            audit.append(PiiHit(page_idx, "force_term", term, PLACEHOLDERS["MASK"]))
            line = word_rx.sub(PLACEHOLDERS["MASK"], line)
    # force-mask regex
    for pat in (cfg.get("blacklist", {}).get("force_mask_regex", []) or []):
        try:
            rx = re.compile(pat, re.IGNORECASE)
        except Exception:
            continue
        if rx.search(line):
            audit.append(PiiHit(page_idx, "force_regex", pat, PLACEHOLDERS["MASK"]))
            line = rx.sub(PLACEHOLDERS["MASK"], line)
    return line


def _mask_admin_label(line: str, audit: List[PiiHit], page_idx: int) -> str:
    m = RE_FINESS.search(line)
    if m:
        val = m.group(1); audit.append(PiiHit(page_idx, "FINESS", val, PLACEHOLDERS["FINESS"]))
        return RE_FINESS.sub(lambda _: f"FINESS : {PLACEHOLDERS['FINESS']}", line)
    m = RE_OGC.search(line)
    if m:
        val = m.group(1); audit.append(PiiHit(page_idx, "OGC", val, PLACEHOLDERS["OGC"]))
        return RE_OGC.sub(lambda _: f"N° OGC : {PLACEHOLDERS['OGC']}", line)
    m = RE_IPP.search(line)
    if m:
        val = m.group(1); audit.append(PiiHit(page_idx, "IPP", val, PLACEHOLDERS["IPP"]))
        return RE_IPP.sub(lambda _: f"IPP : {PLACEHOLDERS['IPP']}", line)
    return line


def _mask_line_by_regex(line: str, audit: List[PiiHit], page_idx: int, cfg: Dict[str, Any]) -> str:
    # user overrides & force-masks d'abord
    line = _apply_overrides(line, audit, page_idx, cfg)

    # EMAIL
    def _repl_email(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "EMAIL", m.group(0), PLACEHOLDERS["EMAIL"]))
        return PLACEHOLDERS["EMAIL"]
    line = RE_EMAIL.sub(_repl_email, line)

    # TEL
    def _repl_tel(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "TEL", m.group(0), PLACEHOLDERS["TEL"]))
        return PLACEHOLDERS["TEL"]
    line = RE_TEL.sub(_repl_tel, line)

    # IBAN
    def _repl_iban(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "IBAN", m.group(0), PLACEHOLDERS["IBAN"]))
        return PLACEHOLDERS["IBAN"]
    line = RE_IBAN.sub(_repl_iban, line)

    # NIR (avec validation clé modulo 97)
    def _repl_nir(m: re.Match) -> str:
        raw = m.group(0)
        if not validate_nir(raw):
            return raw  # faux positif, on ne masque pas
        audit.append(PiiHit(page_idx, "NIR", raw, PLACEHOLDERS["NIR"]))
        return PLACEHOLDERS["NIR"]
    line = RE_NIR.sub(_repl_nir, line)

    # DATE_NAISSANCE (plus spécifique, avant DATE générique)
    def _repl_date_naissance(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "DATE_NAISSANCE", m.group(0), PLACEHOLDERS["DATE_NAISSANCE"]))
        return PLACEHOLDERS["DATE_NAISSANCE"]
    line = RE_DATE_NAISSANCE.sub(_repl_date_naissance, line)

    # DATE générique
    def _repl_date(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "DATE", m.group(0), PLACEHOLDERS["DATE"]))
        return PLACEHOLDERS["DATE"]
    line = RE_DATE.sub(_repl_date, line)

    # ADRESSE
    def _repl_adresse(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "ADRESSE", m.group(0), PLACEHOLDERS["ADRESSE"]))
        return PLACEHOLDERS["ADRESSE"]
    line = RE_ADRESSE.sub(_repl_adresse, line)

    # CODE_POSTAL
    def _repl_code_postal(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "CODE_POSTAL", m.group(0), PLACEHOLDERS["CODE_POSTAL"]))
        return PLACEHOLDERS["CODE_POSTAL"]
    line = RE_CODE_POSTAL.sub(_repl_code_postal, line)

    # AGE
    def _repl_age(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "AGE", m.group(0), PLACEHOLDERS["AGE"]))
        return PLACEHOLDERS["AGE"]
    line = RE_AGE.sub(_repl_age, line)

    # NUMERO DOSSIER / NDA
    def _repl_dossier(m: re.Match) -> str:
        audit.append(PiiHit(page_idx, "DOSSIER", m.group(0), PLACEHOLDERS["DOSSIER"]))
        return PLACEHOLDERS["DOSSIER"]
    line = RE_NUMERO_DOSSIER.sub(_repl_dossier, line)

    # PERSON uppercase avec contexte, whitelist/acronymes courts
    wl_sections = set((cfg.get("whitelist", {}) or {}).get("sections_titres", []) or [])
    wl_phrases = set((cfg.get("whitelist", {}) or {}).get("noms_maj_excepts", []) or [])

    def _repl_person_ctx(m: re.Match) -> str:
        span = m.group(1).strip(); raw = m.group(0)
        if span in wl_sections or raw in wl_phrases: return raw
        tokens = [t for t in span.split() if t]
        if len(tokens) == 1 and len(tokens[0]) <= 3: return raw
        audit.append(PiiHit(page_idx, "NOM", span, PLACEHOLDERS["NOM"]))
        return raw.replace(span, PLACEHOLDERS["NOM"])  # conserve le préfixe Dr/Mme

    line = RE_PERSON_CONTEXT.sub(_repl_person_ctx, line)
    return line


def _kv_value_only_mask(line: str, audit: List[PiiHit], page_idx: int, cfg: Dict[str, Any]) -> str:
    line = _mask_admin_label(line, audit, page_idx)
    parts = SPLITTER.split(line, maxsplit=1)
    if len(parts) == 2:
        key, value = parts
        masked_val = _mask_line_by_regex(value, audit, page_idx, cfg)
        return f"{key.strip()} : {masked_val.strip()}"
    else:
        return _mask_line_by_regex(line, audit, page_idx, cfg)

# ----------------- Extraction globale de noms -----------------

def _extract_document_names(full_text: str, cfg: Dict[str, Any]) -> set:
    """Pré-scan du document brut pour extraire les noms de personnes
    depuis les champs structurés (Patient, Rédigé par, etc.).
    Retourne un ensemble de tokens (mots) à masquer globalement."""
    wl_sections = set((cfg.get("whitelist", {}) or {}).get("sections_titres", []) or [])
    wl_phrases = set((cfg.get("whitelist", {}) or {}).get("noms_maj_excepts", []) or [])
    names: set = set()

    def _add_tokens(match_str: str):
        for token in match_str.split():
            token = token.strip(" .-'")
            if len(token) >= 3 and token.upper() not in wl_sections and token not in wl_phrases:
                names.add(token)

    for m in RE_EXTRACT_PATIENT.finditer(full_text):
        _add_tokens(m.group(1))
    for m in RE_EXTRACT_REDIGE.finditer(full_text):
        _add_tokens(m.group(1))
    for m in RE_EXTRACT_MME_MR.finditer(full_text):
        _add_tokens(m.group(1))
    for m in RE_EXTRACT_DR_DEST.finditer(full_text):
        _add_tokens(m.group(1))
    return names


def _apply_extracted_names(text: str, names: set, audit: List[PiiHit]) -> str:
    """Remplace globalement chaque nom extrait dans le texte."""
    placeholder = PLACEHOLDERS["NOM"]
    for token in sorted(names, key=len, reverse=True):
        pattern = re.compile(rf"\b{re.escape(token)}\b", re.IGNORECASE)
        for m in pattern.finditer(text):
            # Ne pas remplacer si déjà dans un placeholder
            ctx_start = max(0, m.start() - 1)
            ctx_end = min(len(text), m.end() + 1)
            if "[" in text[ctx_start:m.start()] or "]" in text[m.end():ctx_end]:
                continue
            audit.append(PiiHit(-1, "NOM_EXTRACTED", m.group(0), placeholder))
        text = pattern.sub(placeholder, text)
    return text


# ----------------- Anonymisation (regex) -----------------

def anonymise_document_regex(pages_text: List[str], tables_lines: List[List[str]], cfg: Dict[str, Any]) -> AnonResult:
    audit: List[PiiHit] = []

    # Phase 0 : extraction globale des noms depuis les champs structurés
    full_raw = "\n".join(pages_text) + "\n" + "\n".join(
        "\n".join(rows) for rows in tables_lines
    )
    extracted_names = _extract_document_names(full_raw, cfg)

    # Phase 1 : masquage ligne par ligne (regex classiques)
    out_pages: List[str] = []
    for i, page_txt in enumerate(pages_text):
        lines = [ln for ln in (page_txt or "").splitlines()]
        masked = [_kv_value_only_mask(ln, audit, i, cfg) for ln in lines]
        out_pages.append("\n".join(masked))
    table_blocks: List[str] = []
    for i, rows in enumerate(tables_lines):
        mbuf: List[str] = []
        for r in rows:
            masked = _kv_value_only_mask(r, audit, i, cfg)
            mbuf.append(masked)
        if mbuf:
            table_blocks.append("\n".join(mbuf))
    tables_block = "\n\n".join(table_blocks)
    text_out = "\f".join(out_pages)  # séparateur de pages
    if tables_block.strip():
        text_out += "\n\n[TABLES]\n" + tables_block + "\n[/TABLES]"

    # Phase 2 : application globale des noms extraits (rattrapage)
    if extracted_names:
        text_out = _apply_extracted_names(text_out, extracted_names, audit)

    return AnonResult(text_out=text_out, tables_block=tables_block, audit=audit)

# ----------------- NER ONNX sur narratif -----------------

def _mask_with_hf(text: str, ents: List[Dict[str, Any]], cfg: Dict[str, Any], audit: List[PiiHit]) -> str:
    # remplace via regex sur les 'word' détectés (approche pragmatique)
    keep_org_gpe = bool((cfg.get("whitelist", {}) or {}).get("org_gpe_keep", True))
    def repl_once(s: str, old: str, new: str) -> str:
        return re.sub(rf"\b{re.escape(old)}\b", new, s)
    out = text
    for e in ents:
        w = e.get("word") or ""; grp = (e.get("entity_group") or e.get("entity") or "").upper()
        if not w or "[" in w or "]" in w:  # ignore placeholders
            continue
        if len(w) <= 2:  # trop court
            continue
        if grp in {"PER", "PERSON"}:
            audit.append(PiiHit(-1, "NER_PER", w, PLACEHOLDERS["NOM"]))
            out = repl_once(out, w, PLACEHOLDERS["NOM"])
        elif grp in {"ORG"}:
            if keep_org_gpe:
                continue
            audit.append(PiiHit(-1, "NER_ORG", w, PLACEHOLDERS["ETAB"]))
            out = repl_once(out, w, PLACEHOLDERS["ETAB"])
        elif grp in {"LOC"}:
            if keep_org_gpe:
                continue
            audit.append(PiiHit(-1, "NER_LOC", w, PLACEHOLDERS["VILLE"]))
            out = repl_once(out, w, PLACEHOLDERS["VILLE"])
        elif grp in {"DATE"}:
            # facultatif : si vous masquez déjà les dates via règles, laissez tel quel
            continue
    return out


def apply_hf_ner_on_narrative(text_out: str, cfg: Dict[str, Any], manager: Optional[NerModelManager], thresholds: Optional[NerThresholds]) -> Tuple[str, List[PiiHit]]:
    if manager is None or not manager.is_loaded():
        return text_out, []
    # isoler [TABLES]
    pattern = re.compile(r"\[TABLES\](.*?)\[/TABLES\]", re.DOTALL)
    tables: List[Tuple[int,int,str]] = []
    keep = []
    last = 0
    cleaned = ""
    for m in pattern.finditer(text_out):
        cleaned += text_out[last:m.start()]
        keep.append((len(cleaned), len(cleaned) + len(m.group(0)), m.group(0)))
        cleaned += "\x00" * len(m.group(0))
        last = m.end()
    cleaned += text_out[last:]

    # par pages (séparées par \f) → par paragraphes
    pages = cleaned.split("\f")
    hits: List[PiiHit] = []
    rebuilt_pages: List[str] = []
    for pg in pages:
        paras = [p for p in re.split(r"\n\s*\n", pg) if p.strip()]
        ents_per_para = manager.infer_paragraphs(paras, thresholds=thresholds)
        # remplace entités
        idx = 0
        buf = []
        for para, ents in zip(paras, ents_per_para):
            masked = _mask_with_hf(para, ents, cfg, hits)
            buf.append(masked)
        rebuilt_pages.append("\n\n".join(buf))
    rebuilt = "\f".join(rebuilt_pages)

    # réinsérer [TABLES]
    rebuilt_list = list(rebuilt)
    for start, end, payload in keep:
        rebuilt_list[start:end] = list(payload)
    final = "".join(rebuilt_list)
    return final, hits

# ----------------- NER EDS-Pseudo sur narratif -----------------

def _mask_with_eds_pseudo(text: str, ents: List[Dict[str, Any]], cfg: Dict[str, Any], audit: List[PiiHit]) -> str:
    """Masque les entités détectées par EDS-Pseudo en utilisant le mapping eds_mapped_key."""
    def repl_once(s: str, old: str, new: str) -> str:
        return re.sub(rf"\b{re.escape(old)}\b", new, s)
    out = text
    for e in ents:
        w = e.get("word") or ""
        mapped_key = e.get("eds_mapped_key", "")
        if not w or "[" in w or "]" in w:
            continue
        if len(w) <= 2:
            continue
        placeholder = PLACEHOLDERS.get(mapped_key, PLACEHOLDERS["MASK"])
        label = e.get("entity_group", "EDS")
        audit.append(PiiHit(-1, f"EDS_{label}", w, placeholder))
        out = repl_once(out, w, placeholder)
    return out


def apply_eds_pseudo_on_narrative(text_out: str, cfg: Dict[str, Any], manager: "EdsPseudoManager") -> Tuple[str, List[PiiHit]]:
    """Applique EDS-Pseudo sur le narratif (même structure que apply_hf_ner_on_narrative)."""
    if manager is None or not manager.is_loaded():
        return text_out, []
    # isoler [TABLES]
    pattern = re.compile(r"\[TABLES\](.*?)\[/TABLES\]", re.DOTALL)
    keep = []
    last = 0
    cleaned = ""
    for m in pattern.finditer(text_out):
        cleaned += text_out[last:m.start()]
        keep.append((len(cleaned), len(cleaned) + len(m.group(0)), m.group(0)))
        cleaned += "\x00" * len(m.group(0))
        last = m.end()
    cleaned += text_out[last:]

    # par pages → par paragraphes
    pages = cleaned.split("\f")
    hits: List[PiiHit] = []
    rebuilt_pages: List[str] = []
    for pg in pages:
        paras = [p for p in re.split(r"\n\s*\n", pg) if p.strip()]
        ents_per_para = manager.infer_paragraphs(paras)
        buf = []
        for para, ents in zip(paras, ents_per_para):
            masked = _mask_with_eds_pseudo(para, ents, cfg, hits)
            buf.append(masked)
        rebuilt_pages.append("\n\n".join(buf))
    rebuilt = "\f".join(rebuilt_pages)

    # réinsérer [TABLES]
    rebuilt_list = list(rebuilt)
    for start, end, payload in keep:
        rebuilt_list[start:end] = list(payload)
    final = "".join(rebuilt_list)
    return final, hits

# ----------------- Selective safety rescan -----------------

def selective_rescan(text: str, cfg: Dict[str, Any] | None = None) -> str:
    """Rescan de sécurité : re-détecte les PII critiques qui auraient échappé au premier passage."""
    # enlève TABLES du scope
    def strip_tables(s: str):
        kept = []
        out = []
        i = 0
        pattern = re.compile(r"\[TABLES\](.*?)\[/TABLES\]", re.DOTALL)
        for m in pattern.finditer(s):
            out.append(s[i:m.start()])
            kept.append((len("".join(out)), len("".join(out)) + len(m.group(1)), m.group(1)))
            out.append("\x00" * (m.end() - m.start()))
            i = m.end()
        out.append(s[i:])
        return "".join(out), kept
    protected, kept = strip_tables(text)
    # PII critiques (comme avant)
    protected = RE_EMAIL.sub(PLACEHOLDERS["EMAIL"], protected)
    protected = RE_TEL.sub(PLACEHOLDERS["TEL"], protected)
    protected = RE_IBAN.sub(PLACEHOLDERS["IBAN"], protected)
    # NIR avec validation
    def _rescan_nir(m: re.Match) -> str:
        return PLACEHOLDERS["NIR"] if validate_nir(m.group(0)) else m.group(0)
    protected = RE_NIR.sub(_rescan_nir, protected)
    # Nouvelles regex : dates de naissance, dates, adresses, codes postaux
    protected = RE_DATE_NAISSANCE.sub(PLACEHOLDERS["DATE_NAISSANCE"], protected)
    protected = RE_DATE.sub(PLACEHOLDERS["DATE"], protected)
    protected = RE_ADRESSE.sub(PLACEHOLDERS["ADRESSE"], protected)
    protected = RE_CODE_POSTAL.sub(PLACEHOLDERS["CODE_POSTAL"], protected)
    # Personnes contextuelles (avec whitelist)
    wl_sections = set()
    wl_phrases = set()
    if cfg:
        wl_sections = set((cfg.get("whitelist", {}) or {}).get("sections_titres", []) or [])
        wl_phrases = set((cfg.get("whitelist", {}) or {}).get("noms_maj_excepts", []) or [])
    def _rescan_person(m: re.Match) -> str:
        span = m.group(1).strip(); raw = m.group(0)
        if span in wl_sections or raw in wl_phrases:
            return raw
        tokens = [t for t in span.split() if t]
        if len(tokens) == 1 and len(tokens[0]) <= 3:
            return raw
        return raw.replace(span, PLACEHOLDERS["NOM"])
    protected = RE_PERSON_CONTEXT.sub(_rescan_person, protected)
    res = list(protected)
    for start, end, payload in kept:
        res[start:end] = list(payload)
    return "".join(res)

# ----------------- PDF Redaction -----------------

def redact_pdf_vector(original_pdf: Path, audit: List[PiiHit], out_pdf: Path) -> None:
    if fitz is None:
        raise RuntimeError("PyMuPDF non disponible – installez pymupdf.")
    doc = fitz.open(str(original_pdf))
    # index hits par page; page==-1 → rechercher sur toutes pages
    by_page: Dict[int, List[PiiHit]] = {}
    for h in audit:
        by_page.setdefault(h.page, []).append(h)
    for pno in range(len(doc)):
        page = doc[pno]
        hits = by_page.get(pno, []) + by_page.get(-1, [])
        if not hits:
            continue
        for h in hits:
            token = h.original.strip()
            if not token:
                continue
            rects = page.search_for(token)
            if not rects and h.kind in {"NIR", "IBAN", "TEL"}:
                compact = re.sub(r"\s+", "", token)
                if compact != token:
                    rects = page.search_for(compact)
            for r in rects:
                page.add_redact_annot(r, fill=(0,0,0))
        try:
            page.apply_redactions()
        except Exception:
            pass
    doc.save(str(out_pdf), deflate=True, garbage=4, clean=True, incremental=False)
    doc.close()


def redact_pdf_raster(original_pdf: Path, audit: List[PiiHit], out_pdf: Path, dpi: int = 300) -> None:
    if fitz is None:
        raise RuntimeError("PyMuPDF non disponible – installez pymupdf.")
    doc = fitz.open(str(original_pdf)); out = fitz.open()
    all_rects: Dict[int, List["fitz.Rect"]] = {}
    for pno in range(len(doc)):
        page = doc[pno]
        rects = []
        hits = [x for x in audit if x.page in {pno, -1}]
        for h in hits:
            token = h.original.strip()
            if not token: continue
            found = page.search_for(token)
            if not found and h.kind in {"NIR", "IBAN", "TEL"}:
                compact = re.sub(r"\s+", "", token)
                found = page.search_for(compact)
            rects.extend(found)
        all_rects[pno] = rects
    for pno in range(len(doc)):
        src = doc[pno]; rect = src.rect
        zoom = dpi / 72.0; mat = fitz.Matrix(zoom, zoom)
        pix = src.get_pixmap(matrix=mat, annots=False)
        img = Image.frombytes("RGB", [pix.width, pix.height], pix.samples)
        draw = ImageDraw.Draw(img)
        for r in all_rects.get(pno, []):
            draw.rectangle([r.x0 * zoom, r.y0 * zoom, r.x1 * zoom, r.y1 * zoom], fill=(0, 0, 0))
        buf = io.BytesIO(); img.save(buf, format="PNG"); buf.seek(0)
        dst = out.new_page(width=rect.width, height=rect.height)
        dst.insert_image(rect, stream=buf.getvalue())
    out.save(str(out_pdf), deflate=True, garbage=4, clean=True)
    out.close(); doc.close()

# ----------------- Orchestration -----------------

def process_pdf(
    pdf_path: Path,
    out_dir: Path,
    make_vector_redaction: bool = True,
    also_make_raster_burn: bool = False,
    config_path: Optional[Path] = None,
    use_hf: bool = False,
    ner_manager=None,
    ner_thresholds=None,
) -> Dict[str, str]:
    out_dir.mkdir(parents=True, exist_ok=True)
    cfg = load_dictionaries(config_path)
    pages_text, tables_lines, ocr_used = extract_text_with_fallback_ocr(pdf_path)

    # 1) Regex rules
    anon = anonymise_document_regex(pages_text, tables_lines, cfg)

    # 2) NER (optionnel) — sur le narratif
    final_text = anon.text_out
    hf_hits: List[PiiHit] = []
    if use_hf and ner_manager is not None and ner_manager.is_loaded():
        # Détecter le type de manager et appeler la bonne fonction
        if EdsPseudoManager is not None and isinstance(ner_manager, EdsPseudoManager):
            final_text, hf_hits = apply_eds_pseudo_on_narrative(final_text, cfg, ner_manager)
        else:
            final_text, hf_hits = apply_hf_ner_on_narrative(final_text, cfg, ner_manager, ner_thresholds)
        anon.audit.extend(hf_hits)

    # 3) Rescan selectif
    final_text = selective_rescan(final_text, cfg=cfg)

    # Log OCR dans l'audit
    if ocr_used:
        anon.audit.insert(0, PiiHit(page=-1, kind="OCR_USED", original="docTR", placeholder=""))

    # Sauvegardes
    base = pdf_path.stem
    txt_path = out_dir / f"{base}.pseudonymise.txt"
    audit_path = out_dir / f"{base}.audit.jsonl"
    txt_path.write_text(final_text, encoding="utf-8")
    with audit_path.open("w", encoding="utf-8") as f:
        for hit in anon.audit:
            f.write(json.dumps(hit.__dict__, ensure_ascii=False) + "\n")
    outputs = {"text": str(txt_path), "audit": str(audit_path)}

    # PDFs
    if make_vector_redaction and fitz is not None:
        vec_path = out_dir / f"{base}.redacted_vector.pdf"
        try:
            redact_pdf_vector(pdf_path, anon.audit, vec_path)
            outputs["pdf_vector"] = str(vec_path)
        except Exception:
            pass
    if also_make_raster_burn and fitz is not None:
        ras_path = out_dir / f"{base}.redacted_raster.pdf"
        redact_pdf_raster(pdf_path, anon.audit, ras_path)
        outputs["pdf_raster"] = str(ras_path)
    return outputs

if __name__ == "__main__":
    import argparse
    ap = argparse.ArgumentParser(description="Anonymiser PDF (regex + NER ONNX optionnel)")
    ap.add_argument("pdf", type=str)
    ap.add_argument("--out", type=str, default="out")
    ap.add_argument("--no-vector", action="store_true")
    ap.add_argument("--raster", action="store_true")
    ap.add_argument("--config", type=str, default=str(Path("config/dictionnaires.yml")))
    ap.add_argument("--hf", action="store_true", help="Activer NER ONNX sur narratif (nécessite ner_manager_onnx)")
    ap.add_argument("--model", type=str, default="cmarkea/distilcamembert-base-ner")
    args = ap.parse_args()
    manager = None
    if args.hf and NerModelManager is not None:
        manager = NerModelManager(cache_dir=Path("models"))
        manager.load(args.model)
    outs = process_pdf(
        Path(args.pdf),
        Path(args.out),
        make_vector_redaction=not args.no_vector,
        also_make_raster_burn=args.raster,
        config_path=Path(args.config),
        use_hf=bool(args.hf),
        ner_manager=manager,
        ner_thresholds=NerThresholds() if NerThresholds else None,
    )
    print(json.dumps(outs, indent=2, ensure_ascii=False))