import paddle.v2 as paddle import cPickle import copy def main(): paddle.init(use_gpu=False) movie_title_dict = paddle.dataset.movielens.get_movie_title_dict() uid = paddle.layer.data( name='user_id', type=paddle.data_type.integer_value( paddle.dataset.movielens.max_user_id() + 1)) usr_emb = paddle.layer.embedding(input=uid, size=32) usr_gender_id = paddle.layer.data( name='gender_id', type=paddle.data_type.integer_value(2)) usr_gender_emb = paddle.layer.embedding(input=usr_gender_id, size=16) usr_age_id = paddle.layer.data( name='age_id', type=paddle.data_type.integer_value( len(paddle.dataset.movielens.age_table))) usr_age_emb = paddle.layer.embedding(input=usr_age_id, size=16) usr_job_id = paddle.layer.data( name='job_id', type=paddle.data_type.integer_value(paddle.dataset.movielens.max_job_id( ) + 1)) usr_job_emb = paddle.layer.embedding(input=usr_job_id, size=16) usr_combined_features = paddle.layer.fc( input=[usr_emb, usr_gender_emb, usr_age_emb, usr_job_emb], size=200, act=paddle.activation.Tanh()) mov_id = paddle.layer.data( name='movie_id', type=paddle.data_type.integer_value( paddle.dataset.movielens.max_movie_id() + 1)) mov_emb = paddle.layer.embedding(input=mov_id, size=32) mov_categories = paddle.layer.data( name='category_id', type=paddle.data_type.sparse_binary_vector( len(paddle.dataset.movielens.movie_categories()))) mov_categories_hidden = paddle.layer.fc(input=mov_categories, size=32) mov_title_id = paddle.layer.data( name='movie_title', type=paddle.data_type.integer_value_sequence(len(movie_title_dict))) mov_title_emb = paddle.layer.embedding(input=mov_title_id, size=32) mov_title_conv = paddle.networks.sequence_conv_pool( input=mov_title_emb, hidden_size=32, context_len=3) mov_combined_features = paddle.layer.fc( input=[mov_emb, mov_categories_hidden, mov_title_conv], size=200, act=paddle.activation.Tanh()) inference = paddle.layer.cos_sim( a=usr_combined_features, b=mov_combined_features, size=1, scale=5) cost = paddle.layer.regression_cost( input=inference, label=paddle.layer.data( name='score', type=paddle.data_type.dense_vector(1))) parameters = paddle.parameters.create(cost) trainer = paddle.trainer.SGD(cost=cost, parameters=parameters, update_equation=paddle.optimizer.Adam( learning_rate=1e-4)) feeding = { 'user_id': 0, 'gender_id': 1, 'age_id': 2, 'job_id': 3, 'movie_id': 4, 'category_id': 5, 'movie_title': 6, 'score': 7 } def event_handler(event): if isinstance(event, paddle.event.EndIteration): if event.batch_id % 100 == 0: print "Pass %d Batch %d Cost %.2f" % ( event.pass_id, event.batch_id, event.cost) trainer.train( reader=paddle.batch( paddle.reader.shuffle( paddle.dataset.movielens.train(), buf_size=8192), batch_size=256), event_handler=event_handler, feeding=feeding, num_passes=1) user_id = 234 movie_id = 345 user = paddle.dataset.movielens.user_info()[user_id] movie = paddle.dataset.movielens.movie_info()[movie_id] feature = user.value() + movie.value() def reader(): yield feature infer_dict = copy.copy(feeding) del infer_dict['score'] prediction = paddle.infer( output=inference, parameters=parameters, reader=paddle.batch( reader, batch_size=32), feeding=infer_dict) print(prediction + 5) / 2 if __name__ == '__main__': main()