Brancheneinstufung2/ARCHIVE_legacy_scripts/duplicate_checker.py

# duplicate_checker_v6.1.py

import os
import sys
import re
import argparse
import json
import logging
import pandas as pd
import numpy as np
import joblib
import treelite_runtime
from datetime import datetime
from collections import Counter
from thefuzz import fuzz
from helpers import normalize_company_name, simple_normalize_url
from config import Config
from google_sheet_handler import GoogleSheetHandler

# --- Konfiguration ---
SCRIPT_VERSION = "v6.1 (Treelite ML Model)"
STATUS_DIR = "job_status"
LOG_DIR = "Log"
MODEL_FILE = 'xgb_model.json'
TERM_WEIGHTS_FILE = 'term_weights.joblib'
CRM_DATA_FILE = 'crm_for_prediction.pkl'
TREELITE_MODEL_FILE = 'xgb_model.treelite'
PREDICTION_THRESHOLD = 0.5
PREFILTER_MIN_PARTIAL = 65
PREFILTER_LIMIT = 50
CRM_SHEET_NAME = "CRM_Accounts"
MATCHING_SHEET_NAME = "Matching_Accounts"

# --- Logging Setup ---
now = datetime.now().strftime('%Y-%m-%d_%H-%M')
LOG_FILE = f"{now}_duplicate_check_{SCRIPT_VERSION.split(' ')[0]}.txt"
if not os.path.exists(LOG_DIR): os.makedirs(LOG_DIR, exist_ok=True)
log_path = os.path.join(LOG_DIR, LOG_FILE)
root = logging.getLogger()
root.setLevel(logging.DEBUG)
for h in list(root.handlers): root.removeHandler(h)
formatter = logging.Formatter("%(asctime)s - %(levelname)-8s - %(message)s")
ch = logging.StreamHandler(sys.stdout)
ch.setLevel(logging.INFO)
ch.setFormatter(formatter)
root.addHandler(ch)
fh = logging.FileHandler(log_path, mode='a', encoding='utf-8')
fh.setLevel(logging.DEBUG)
fh.setFormatter(formatter)
root.addHandler(fh)
logger = logging.getLogger(__name__)

# --- Stop-/City-Tokens ---
STOP_TOKENS_BASE = {
    'gmbh','mbh','ag','kg','ug','ohg','se','co','kgaa','inc','llc','ltd','sarl', 'b.v', 'bv',
    'holding','gruppe','group','international','solutions','solution','service','services',
}
CITY_TOKENS = set()

# --- Hilfsfunktionen ---
def update_status(job_id, status, progress_message):
    if not job_id: return
    status_file = os.path.join(STATUS_DIR, f"{job_id}.json")
    try:
        try:
            with open(status_file, 'r') as f: data = json.load(f)
        except FileNotFoundError: data = {}
        data.update({"status": status, "progress": progress_message})
        with open(status_file, 'w') as f: json.dump(data, f)
    except Exception as e:
        logging.error(f"Konnte Statusdatei für Job {job_id} nicht schreiben: {e}")

def _tokenize(s: str):
    if not s: return []
    return re.split(r"[^a-z0-9äöüß]+", str(s).lower())

def clean_name_for_scoring(norm_name: str):
    if not norm_name: return "", set()
    tokens = [t for t in _tokenize(norm_name) if len(t) >= 3]
    stop_union = STOP_TOKENS_BASE | CITY_TOKENS
    final_tokens = [t for t in tokens if t not in stop_union]
    return " ".join(final_tokens), set(final_tokens)

def get_rarest_tokens(norm_name: str, term_weights: dict, count=3):
    _, toks = clean_name_for_scoring(norm_name)
    if not toks: return []
    return sorted(list(toks), key=lambda t: term_weights.get(t, 0), reverse=True)[:count]

def create_features(mrec: dict, crec: dict, term_weights: dict, feature_names: list):
    features = {}
    n1_raw = mrec.get('normalized_name', '')
    n2_raw = crec.get('normalized_name', '')
    clean1, toks1 = clean_name_for_scoring(n1_raw)
    clean2, toks2 = clean_name_for_scoring(n2_raw)

    features['fuzz_ratio'] = fuzz.ratio(n1_raw, n2_raw)
    features['fuzz_partial_ratio'] = fuzz.partial_ratio(n1_raw, n2_raw)
    features['fuzz_token_set_ratio'] = fuzz.token_set_ratio(clean1, clean2)
    features['fuzz_token_sort_ratio'] = fuzz.token_sort_ratio(clean1, clean2)
    
    features['domain_match'] = 1 if mrec.get('normalized_domain') and mrec.get('normalized_domain') == crec.get('normalized_domain') else 0
    features['city_match'] = 1 if mrec.get('CRM Ort') and crec.get('CRM Ort') and mrec.get('CRM Ort') == crec.get('CRM Ort') else 0
    features['country_match'] = 1 if mrec.get('CRM Land') and crec.get('CRM Land') and mrec.get('CRM Land') == crec.get('CRM Land') else 0
    features['country_mismatch'] = 1 if (mrec.get('CRM Land') and crec.get('CRM Land') and mrec.get('CRM Land') != crec.get('CRM Land')) else 0
    
    overlapping_tokens = toks1 & toks2
    rarest_token_mrec = get_rarest_tokens(n1_raw, term_weights, 1)[0] if get_rarest_tokens(n1_raw, term_weights, 1) else None
    
    features['rarest_token_overlap'] = 1 if rarest_token_mrec and rarest_token_mrec in toks2 else 0
    features['weighted_token_score'] = sum(term_weights.get(t, 0) for t in overlapping_tokens)
    features['jaccard_similarity'] = len(overlapping_tokens) / len(toks1 | toks2) if len(toks1 | toks2) > 0 else 0
    
    features['name_len_diff'] = abs(len(n1_raw) - len(n2_raw))
    features['candidate_is_shorter'] = 1 if len(n2_raw) < len(n1_raw) else 0
    
    return [features.get(name, 0) for name in feature_names]

def build_indexes(crm_df: pd.DataFrame):
    records = list(crm_df.to_dict('records'))
    domain_index = {}
    for r in records:
        d = r.get('normalized_domain')
        if d: domain_index.setdefault(d, []).append(r)
    token_index = {}
    for idx, r in enumerate(records):
        _, toks = clean_name_for_scoring(r.get('normalized_name',''))
        for t in set(toks): token_index.setdefault(t, []).append(idx)
    return records, domain_index, token_index

def main(job_id=None):
    # <<< NEU: Eindeutige Log-Ausgabe ganz am Anfang >>>
    logger.info(f"############################################################")
    logger.info(f"### DUPLICATE CHECKER {SCRIPT_VERSION} WIRD AUSGEFÜHRT ###")
    logger.info(f"############################################################")

    try:
        predictor = treelite_runtime.Predictor(TREELITE_MODEL_FILE, nthread=4)
        term_weights = joblib.load(TERM_WEIGHTS_FILE)
        crm_df = pd.read_pickle(CRM_DATA_FILE)
        logger.info("Treelite-Modell, Gewichte und lokaler CRM-Datensatz erfolgreich geladen.")
    except Exception as e:
        logger.critical(f"Konnte Modelldateien/CRM-Daten nicht laden. Fehler: {e}")
        sys.exit(1)

    try:
        sheet = GoogleSheetHandler()
        match_df = sheet.get_sheet_as_dataframe(MATCHING_SHEET_NAME)
    except Exception as e:
        logger.critical(f"Fehler beim Laden der Matching-Daten aus Google Sheets: {e}")
        sys.exit(1)

    total = len(match_df) if match_df is not None else 0
    if match_df is None or match_df.empty:
        logger.critical("Leere Daten im Matching-Sheet. Abbruch.")
        return
    logger.info(f"{len(crm_df)} CRM-Datensätze (lokal) | {total} Matching-Datensätze")

    match_df['normalized_name']   = match_df['CRM Name'].astype(str).apply(normalize_company_name)
    match_df['normalized_domain'] = match_df['CRM Website'].astype(str).apply(simple_normalize_url)
    match_df['CRM Ort']           = match_df['CRM Ort'].astype(str).str.lower().str.strip()
    match_df['CRM Land']          = match_df['CRM Land'].astype(str).str.lower().str.strip()
    
    global CITY_TOKENS
    CITY_TOKENS = {t for s in pd.concat([crm_df['CRM Ort'], match_df['CRM Ort']]).dropna().unique() for t in _tokenize(s) if len(t) >= 3}

    crm_records, domain_index, token_index = build_indexes(crm_df)
    
    results = []
    logger.info("Starte Matching-Prozess mit ML-Modell…")

    for idx, mrow in match_df.to_dict('index').items():
        processed = idx + 1
        progress_message = f"Prüfe {processed}/{total}: '{mrow.get('CRM Name','')}'"
        if processed % 100 == 0: logger.info(progress_message) # Seltener loggen
        if processed % 10 == 0 or processed == total: update_status(job_id, "Läuft", progress_message)

        candidate_indices = set()
        if mrow.get('normalized_domain'):
            candidates_from_domain = domain_index.get(mrow['normalized_domain'], [])
            for c in candidates_from_domain:
                try:
                    indices = crm_df.index[crm_df['normalized_name'] == c['normalized_name']].tolist()
                    if indices: candidate_indices.add(indices[0])
                except Exception: continue
        
        if len(candidate_indices) < 5:
            top_tokens = get_rarest_tokens(mrow.get('normalized_name',''), term_weights, count=3)
            for token in top_tokens:
                candidate_indices.update(token_index.get(token, []))
        
        if len(candidate_indices) < 5:
            clean1, _ = clean_name_for_scoring(mrow.get('normalized_name',''))
            pf = sorted([(fuzz.partial_ratio(clean1, clean_name_for_scoring(r.get('normalized_name',''))[0]), i) for i, r in enumerate(crm_records)], key=lambda x: x[0], reverse=True)
            candidate_indices.update([i for score, i in pf if score >= PREFILTER_MIN_PARTIAL][:PREFILTER_LIMIT])

        candidates = [crm_records[i] for i in list(candidate_indices)[:PREFILTER_LIMIT]] # Limitiere Kandidaten
        if not candidates:
            results.append({'Match':'', 'Score':0, 'Match_Grund':'keine Kandidaten'})
            continue

        feature_list = [create_features(mrow, cr, term_weights, predictor.feature_names) for cr in candidates]
        
        dmatrix = treelite_runtime.DMatrix(np.array(feature_list, dtype='float32'))
        probabilities = predictor.predict(dmatrix)[:, 1]

        scored_candidates = sorted([{'name': candidates[i].get('CRM Name', ''), 'score': prob} for i, prob in enumerate(probabilities)], key=lambda x: x['score'], reverse=True)
        best_match = scored_candidates[0] if scored_candidates else None
        
        if best_match and best_match['score'] >= PREDICTION_THRESHOLD:
            results.append({'Match': best_match['name'], 'Score': round(best_match['score'] * 100), 'Match_Grund': f"ML Confidence: {round(best_match['score']*100)}%"})
        else:
            score_val = round(best_match['score'] * 100) if best_match else 0
            results.append({'Match':'', 'Score': score_val, 'Match_Grund': f"Below Threshold ({int(PREDICTION_THRESHOLD*100)}%)"})

    logger.info("Matching-Prozess abgeschlossen. Schreibe Ergebnisse...")
    result_df = pd.DataFrame(results)
    final_df = pd.concat([match_df.reset_index(drop=True), result_df.reset_index(drop=True)], axis=1)
    cols_to_drop = ['normalized_name', 'normalized_domain']
    final_df = final_df.drop(columns=[col for col in cols_to_drop if col in final_df.columns], errors='ignore')
    upload_df = final_df.astype(str).replace({'nan': '', 'None': ''})
    data_to_write = [upload_df.columns.tolist()] + upload_df.values.tolist()
    
    ok = sheet.clear_and_write_data(MATCHING_SHEET_NAME, data_to_write)
    if ok:
        logger.info("Ergebnisse erfolgreich in das Google Sheet geschrieben.")
        if job_id: update_status(job_id, "Abgeschlossen", f"{total} Accounts erfolgreich geprüft.")
    else:
        logger.error("Fehler beim Schreiben der Ergebnisse ins Google Sheet.")
        if job_id: update_status(job_id, "Fehlgeschlagen", "Fehler beim Schreiben ins Google Sheet.")

if __name__=='__main__':
    parser = argparse.ArgumentParser(description=f"Duplicate Checker {SCRIPT_VERSION}")
    parser.add_argument("--job-id", type=str, help="Eindeutige ID für den Job-Status.")
    args = parser.parse_args()
    main(job_id=args.job_id)