# Import packages
import os
import pandas as pd
# Define file directories
MOVIELENS_DIR = 'dat'
USER_DATA_FILE = 'users.dat'
MOVIE_DATA_FILE = 'movies.dat'
RATING_DATA_FILE = 'ratings.dat'
# Specify User's Age and Occupation Column
AGES = { 1: "Under 18", 18: "18-24", 25: "25-34", 35: "35-44", 45: "45-49", 50: "50-55", 56: "56+" }
OCCUPATIONS = { 0: "other or not specified", 1: "academic/educator", 2: "artist", 3: "clerical/admin",
4: "college/grad student", 5: "customer service", 6: "doctor/health care",
7: "executive/managerial", 8: "farmer", 9: "homemaker", 10: "K-12 student", 11: "lawyer",
12: "programmer", 13: "retired", 14: "sales/marketing", 15: "scientist", 16: "self-employed",
17: "technician/engineer", 18: "tradesman/craftsman", 19: "unemployed", 20: "writer" }
# Define csv files to be saved into
USERS_CSV_FILE = 'users.csv'
MOVIES_CSV_FILE = 'movies.csv'
RATINGS_CSV_FILE = 'ratings.csv'
# Read the Ratings File
ratings = pd.read_csv(os.path.join(MOVIELENS_DIR, RATING_DATA_FILE),
sep='::',
engine='python',
encoding='latin-1',
names=['user_id', 'movie_id', 'rating', 'timestamp'])
# Set max_userid to the maximum user_id in the ratings
max_userid = ratings['user_id'].drop_duplicates().max()
# Set max_movieid to the maximum movie_id in the ratings
max_movieid = ratings['movie_id'].drop_duplicates().max()
# Process ratings dataframe for Keras Deep Learning model
# Add user_emb_id column whose values == user_id - 1
ratings['user_emb_id'] = ratings['user_id'] - 1
# Add movie_emb_id column whose values == movie_id - 1
ratings['movie_emb_id'] = ratings['movie_id'] - 1
print len(ratings), 'ratings loaded'
1000209 ratings loaded
# Save into ratings.csv
ratings.to_csv(RATINGS_CSV_FILE,
sep='\t',
header=True,
encoding='latin-1',
columns=['user_id', 'movie_id', 'rating', 'timestamp', 'user_emb_id', 'movie_emb_id'])
print 'Saved to', RATINGS_CSV_FILE
Saved to ratings.csv
# Read the Users File
users = pd.read_csv(os.path.join(MOVIELENS_DIR, USER_DATA_FILE),
sep='::',
engine='python',
encoding='latin-1',
names=['user_id', 'gender', 'age', 'occupation', 'zipcode'])
users['age_desc'] = users['age'].apply(lambda x: AGES[x])
users['occ_desc'] = users['occupation'].apply(lambda x: OCCUPATIONS[x])
print len(users), 'descriptions of', max_userid, 'users loaded.'
6040 descriptions of 6040 users loaded.
# Save into users.csv
users.to_csv(USERS_CSV_FILE,
sep='\t',
header=True,
encoding='latin-1',
columns=['user_id', 'gender', 'age', 'occupation', 'zipcode', 'age_desc', 'occ_desc'])
print 'Saved to', USERS_CSV_FILE
Saved to users.csv
# Read the Movies File
movies = pd.read_csv(os.path.join(MOVIELENS_DIR, MOVIE_DATA_FILE),
sep='::',
engine='python',
encoding='latin-1',
names=['movie_id', 'title', 'genres'])
print len(movies), 'descriptions of', max_movieid, 'movies loaded.'
3883 descriptions of 3952 movies loaded.
# Save into movies.csv
movies.to_csv(MOVIES_CSV_FILE,
sep='\t',
header=True,
columns=['movie_id', 'title', 'genres'])
print 'Saved to', MOVIES_CSV_FILE
Saved to movies.csv