duplicate_checker.py aktualisiert
This commit is contained in:
@@ -1,4 +1,4 @@
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# duplicate_checker.py (v2.0 - Maximum Logging)
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# duplicate_checker.py (v1.1 - Lauf 1 Logik + Match-Grund)
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import logging
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import pandas as pd
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@@ -11,7 +11,7 @@ import time
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# --- Konfiguration ---
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CRM_SHEET_NAME = "CRM_Accounts"
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MATCHING_SHEET_NAME = "Matching_Accounts"
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SCORE_THRESHOLD = 80
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SCORE_THRESHOLD = 80 # Treffer unter diesem Wert werden nicht als "potenzieller Treffer" angezeigt
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# --- VOLLSTÄNDIGES LOGGING SETUP ---
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LOG_LEVEL = logging.DEBUG if Config.DEBUG else logging.INFO
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@@ -20,38 +20,54 @@ LOG_FORMAT = '%(asctime)s - %(levelname)-8s - %(name)s - %(message)s'
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root_logger = logging.getLogger()
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root_logger.setLevel(LOG_LEVEL)
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for handler in root_logger.handlers[:]:
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root_logger.removeHandler(handler)
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# Handler nur hinzufügen, wenn noch keine konfiguriert sind
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if not root_logger.handlers:
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stream_handler = logging.StreamHandler()
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stream_handler.setFormatter(logging.Formatter(LOG_FORMAT))
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root_logger.addHandler(stream_handler)
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stream_handler = logging.StreamHandler()
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stream_handler.setFormatter(logging.Formatter(LOG_FORMAT))
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root_logger.addHandler(stream_handler)
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log_file_path = create_log_filename("duplicate_check_v2_0")
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if log_file_path:
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file_handler = logging.FileHandler(log_file_path, mode='a', encoding='utf-8')
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file_handler.setFormatter(logging.Formatter(LOG_FORMAT))
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root_logger.addHandler(file_handler)
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log_file_path = create_log_filename("duplicate_check_final")
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if log_file_path:
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file_handler = logging.FileHandler(log_file_path, mode='a', encoding='utf-8')
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file_handler.setFormatter(logging.Formatter(LOG_FORMAT))
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root_logger.addHandler(file_handler)
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else:
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# Finde den Dateipfad aus dem bereits konfigurierten Handler
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log_file_path = None
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for handler in root_logger.handlers:
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if isinstance(handler, logging.FileHandler):
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log_file_path = handler.baseFilename
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break
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logger = logging.getLogger(__name__)
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def calculate_similarity_with_details(record1, record2):
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"""
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Berechnet einen gewichteten Ähnlichkeits-Score zwischen zwei Datensätzen
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und gibt die Details für die Begründung zurück.
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Berechnet einen gewichteten Ähnlichkeits-Score und gibt den Score und den Grund zurück.
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Dies ist die originale Scoring-Logik von Lauf 1.
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"""
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scores = {'name': 0, 'location': 0, 'domain': 0}
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if record1['normalized_domain'] and record1['normalized_domain'] != 'k.a.' and record1['normalized_domain'] == record2['normalized_domain']:
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# Domain-Match (100 Punkte)
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domain1 = record1.get('normalized_domain')
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domain2 = record2.get('normalized_domain')
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if domain1 and domain1 != 'k.a.' and domain1 == domain2:
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scores['domain'] = 100
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if record1['normalized_name'] and record2['normalized_name']:
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name_similarity = fuzz.token_set_ratio(record1['normalized_name'], record2['normalized_name'])
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# Namensähnlichkeit (70% Gewichtung)
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name1 = record1.get('normalized_name')
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name2 = record2.get('normalized_name')
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if name1 and name2:
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name_similarity = fuzz.token_set_ratio(name1, name2)
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scores['name'] = round(name_similarity * 0.7)
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if record1['CRM Ort'] and record1['CRM Ort'] == record2['CRM Ort']:
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if record1['CRM Land'] and record1['CRM Land'] == record2['CRM Land']:
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scores['location'] = 20
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# Standort-Bonus (20 Punkte)
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ort1 = record1.get('CRM Ort')
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ort2 = record2.get('CRM Ort')
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land1 = record1.get('CRM Land')
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land2 = record2.get('CRM Land')
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if ort1 and ort1 == ort2 and land1 and land1 == land2:
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scores['location'] = 20
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total_score = sum(scores.values())
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@@ -64,26 +80,23 @@ def calculate_similarity_with_details(record1, record2):
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return round(total_score), reason_text
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def main():
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"""Hauptfunktion zum Laden, Vergleichen und Schreiben der Daten."""
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start_time = time.time()
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logger.info("Starte den Duplikats-Check (v2.0 mit Blocking und Maximum Logging)...")
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logger.info("Starte den Duplikats-Check (v1.1 - Brute-Force mit Match-Grund)...")
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logger.info(f"Logdatei: {log_file_path}")
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try:
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sheet_handler = GoogleSheetHandler()
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except Exception as e:
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logger.critical(f"FEHLER bei Initialisierung des GoogleSheetHandler: {e}")
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logger.critical(f"FEHLER bei Initialisierung: {e}")
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return
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logger.info(f"Lade Master-Daten aus '{CRM_SHEET_NAME}'...")
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crm_df = sheet_handler.get_sheet_as_dataframe(CRM_SHEET_NAME)
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if crm_df is None or crm_df.empty:
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return
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if crm_df is None or crm_df.empty: return
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logger.info(f"Lade zu prüfende Daten aus '{MATCHING_SHEET_NAME}'...")
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matching_df = sheet_handler.get_sheet_as_dataframe(MATCHING_SHEET_NAME)
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if matching_df is None or matching_df.empty:
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return
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if matching_df is None or matching_df.empty: return
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original_matching_df = matching_df.copy()
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logger.info("Normalisiere Daten für den Vergleich...")
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@@ -92,52 +105,29 @@ def main():
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df['normalized_domain'] = df['CRM Website'].astype(str).apply(simple_normalize_url)
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df['CRM Ort'] = df['CRM Ort'].astype(str).str.lower().str.strip()
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df['CRM Land'] = df['CRM Land'].astype(str).str.lower().str.strip()
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df['block_key'] = df['normalized_name'].apply(lambda x: x.split()[0] if x and x.split() else None)
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logger.info("Erstelle Index für CRM-Daten zur Beschleunigung...")
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crm_index = {}
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crm_records = crm_df.to_dict('records')
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for record in crm_records:
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key = record['block_key']
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if key:
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if key not in crm_index:
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crm_index[key] = []
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crm_index[key].append(record)
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logger.info("Starte Matching-Prozess...")
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matching_records = matching_df.to_dict('records')
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logger.info(f"Starte Matching-Prozess: {len(matching_records)} Einträge werden mit {len(crm_records)} CRM-Einträgen verglichen...")
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results = []
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for match_record in matching_df.to_dict('records'):
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for i, match_record in enumerate(matching_records):
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best_score = -1
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best_match_name = ""
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best_reason = ""
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logger.info(f"--- Prüfe: '{match_record.get('CRM Name', 'N/A')}' ---")
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logger.debug(f" [Normalisiert: '{match_record.get('normalized_name')}', Domain: '{match_record.get('normalized_domain')}', Key: '{match_record.get('block_key')}']")
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block_key = match_record.get('block_key')
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candidates = crm_index.get(block_key, [])
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logger.info(f"--- Prüfe {i + 1}/{len(matching_records)}: '{match_record.get('CRM Name', 'N/A')}' ---")
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if not candidates:
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logger.debug(" -> Keine Kandidaten im Index gefunden. Überspringe Vergleich.")
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results.append({
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'Potenzieller Treffer im CRM': "", 'Ähnlichkeits-Score': 0, 'Matching-Grund': "Keine Kandidaten"
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})
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continue
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logger.debug(f" -> Vergleiche mit {len(candidates)} Kandidaten aus Block '{block_key}'.")
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for crm_row in candidates:
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score, reason = calculate_similarity_with_details(match_record, crm_row)
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if score > 0: # Logge jeden Vergleich, der einen Score > 0 hat
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logger.debug(f" - Kandidat: '{crm_row.get('CRM Name', 'N/A')}' -> Score: {score} (Grund: {reason})")
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# Brute-Force-Vergleich: Jede Zeile wird mit jeder CRM-Zeile verglichen
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for crm_record in crm_records:
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score, reason = calculate_similarity_with_details(match_record, crm_record)
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if score > best_score:
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best_score = score
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best_match_name = crm_row.get('CRM Name', 'N/A')
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best_match_name = crm_record.get('CRM Name', 'N/A')
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best_reason = reason
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logger.info(f" --> Neuer bester Treffer: '{best_match_name}' mit Score {best_score}")
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logger.info(f" --> Bester Treffer: '{best_match_name}' mit Score {best_score} (Grund: {best_reason})")
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results.append({
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'Potenzieller Treffer im CRM': best_match_name if best_score >= SCORE_THRESHOLD else "",
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@@ -154,9 +144,9 @@ def main():
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success = sheet_handler.clear_and_write_data(MATCHING_SHEET_NAME, data_to_write)
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if success:
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logging.info(f"Ergebnisse erfolgreich in '{MATCHING_SHEET_NAME}' geschrieben.")
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logger.info(f"Ergebnisse erfolgreich in '{MATCHING_SHEET_NAME}' geschrieben.")
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else:
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logging.error("FEHLER beim Schreiben der Ergebnisse ins Google Sheet.")
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logger.error("FEHLER beim Schreiben der Ergebnisse ins Google Sheet.")
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end_time = time.time()
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logger.info(f"Gesamtdauer des Duplikats-Checks: {end_time - start_time:.2f} Sekunden.")
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