import csv import json from math import sqrt import re WORD_THRESHOLD = 4 class RowDecoder(json.JSONDecoder): def decode(self, s): db = json.JSONDecoder.decode(self, s) return [{**obj, 'index': set(obj['index'])} for obj in db] class RowEncoder(json.JSONEncoder): def default(self, obj): if isinstance(obj, set): return list(obj) else: return json.JSONEncoder.default(obj) def keepOnlyAlphaChars(word): return ''.join([c for c in word if c.isalpha()]) def index(text): words = re.split('\s', text) normalized_words = [keepOnlyAlphaChars(word) for word in words] important_words = set([w for w in normalized_words if len(w) > WORD_THRESHOLD]) return important_words def insert(db, row): db.append({'title': row[0], 'quote': row[1], 'index': index(row[1])}) def build_db(inputCSV): db = [] with open(inputCSV, 'r') as file: csv_reader = csv.reader(file, delimiter=',') data = False for row in csv_reader: if data: insert(db, row) else: data = True return db def save_db(db, outputJSON): with open(outputJSON, 'w') as file: json.dump(db, file, cls=RowEncoder) def open_db(filePath): with open(filePath, 'r') as file: return json.load(file, cls=RowDecoder) """ We define a similarity measure on sets which counts the number of elements they have in common """ def scalar(a, b): return len(a.intersection(b))/sqrt(len(a)*len(b)) def find_best_quote(db, user_input): indexed_input = index(user_input) max_score = None for entry in db: score = scalar(indexed_input, entry