compare_to_all_games #1
38
main.py
38
main.py
@ -2,7 +2,7 @@ import pandas as pd
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from fuzzy_controllers import fuzzy_controler_similiarity
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from fuzzy_controllers import fuzzy_controler_similiarity
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from numpy import dot
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from numpy import dot
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from numpy.linalg import norm
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from numpy.linalg import norm
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import json
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def find_games_categorical_similarity(game_1: pd.DataFrame, game_2: pd.DataFrame) -> float:
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def find_games_categorical_similarity(game_1: pd.DataFrame, game_2: pd.DataFrame) -> float:
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game_1_categorical = set(game_1['all_categorical'].tolist()[0])
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game_1_categorical = set(game_1['all_categorical'].tolist()[0])
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@ -21,6 +21,24 @@ def find_games_word_vector_distance(game_1: pd.DataFrame, game_2: pd.DataFrame)
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game_2_vector = game_2['all_categorical_vector'].tolist()[0]
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game_2_vector = game_2['all_categorical_vector'].tolist()[0]
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return round(dot(game_1_vector, game_2_vector) / (norm(game_1_vector) * norm(game_2_vector)), 2)
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return round(dot(game_1_vector, game_2_vector) / (norm(game_1_vector) * norm(game_2_vector)), 2)
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def calculate_similarities(game_title, title_list, df):
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all_games = []
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for compared_title in title_list:
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if game_title != compared_title:
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all_games.append({
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"title": compared_title,
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"similarity": compare_games(title_1=game_title, title_2=compared_title, df=df, show_graph=False)
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})
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sorted_games = sorted(all_games, key=lambda k: k['similarity'], reverse=True)
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print("\n ==== Top 20 most similar games: ====")
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for game in sorted_games[:20]:
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print(f"- {game['title']}")
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save_results(game_title=game_title, game_list=sorted_games)
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def save_results(game_title, game_list):
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print("The full list of similar games available in the /results directory\n")
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with open(f"results/similarity_list_{game_title.lower().replace(' ', '_')}.txt", 'w+') as fp:
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json.dump(game_list, fp)
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def compare_games(title_1: str, title_2: str, df: pd.DataFrame, show_graph: bool = False) -> float:
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def compare_games(title_1: str, title_2: str, df: pd.DataFrame, show_graph: bool = False) -> float:
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game_1 = df.loc[df['name'] == title_1]
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game_1 = df.loc[df['name'] == title_1]
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@ -29,9 +47,6 @@ def compare_games(title_1: str, title_2: str, df: pd.DataFrame, show_graph: bool
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categorical_similarity = find_games_categorical_similarity(game_1=game_1, game_2=game_2)
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categorical_similarity = find_games_categorical_similarity(game_1=game_1, game_2=game_2)
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numerical_difference = find_games_numerical_similarity(game_1=game_1, game_2=game_2)
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numerical_difference = find_games_numerical_similarity(game_1=game_1, game_2=game_2)
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word_vector_distance = find_games_word_vector_distance(game_1=game_1, game_2=game_2)
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word_vector_distance = find_games_word_vector_distance(game_1=game_1, game_2=game_2)
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print(f"Categorical similarity: {categorical_similarity}\nNumerical difference: {numerical_difference}\n"
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f"Word vector distance: {word_vector_distance}")
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similarity_score = fuzzy_controler_similiarity(categorical_data=categorical_similarity,
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similarity_score = fuzzy_controler_similiarity(categorical_data=categorical_similarity,
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numerical_data=numerical_difference,
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numerical_data=numerical_difference,
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vector_distance=word_vector_distance, show_graph=show_graph)
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vector_distance=word_vector_distance, show_graph=show_graph)
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@ -41,10 +56,13 @@ def compare_games(title_1: str, title_2: str, df: pd.DataFrame, show_graph: bool
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if __name__ == '__main__':
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if __name__ == '__main__':
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df = pd.read_pickle('data/games_processed_vectorized.csv')
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df = pd.read_pickle('data/games_processed_vectorized.csv')
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title_list = df["name"].values.tolist()[:2000]
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while True:
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run_program = True
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title_1 = input("Enter title 1: ")
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while run_program:
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title_2 = input("Enter title 2: ")
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print("Welcome to Fuzzy Game Reccomender!\nType in a game title and we will find the most similar games from our database")
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similarity_score = compare_games(title_1=title_1, title_2=title_2, df=df, show_graph=False)
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title = input("Enter the title or type 'exit' to leave: ")
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print(f'Similarity_score: {similarity_score}')
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if title == "exit":
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run_program = False
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else:
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calculate_similarities(game_title=title, title_list=title_list, df=df)
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@ -35,7 +35,7 @@ def replace_with_vector(row, w2v):
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if __name__ == '__main__':
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if __name__ == '__main__':
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df = pd.read_csv('data/games.csv')
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df = pd.read_csv('data/games.csv')
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df = df.drop_duplicates(subset=['name'])
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df['positive_percentage'] = df.apply(
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df['positive_percentage'] = df.apply(
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lambda row: calculate_positive_percentage(row.positive_ratings, row.negative_ratings), axis=1)
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lambda row: calculate_positive_percentage(row.positive_ratings, row.negative_ratings), axis=1)
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df['owners'] = df.apply(lambda row: owners_average_max_min(row.owners), axis=1)
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df['owners'] = df.apply(lambda row: owners_average_max_min(row.owners), axis=1)
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0
results/.gitkeep
Normal file
0
results/.gitkeep
Normal file
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