#!/usr/bin/env python # -*- coding: utf-8 -*- import paddle.v2 as paddle import cPickle class DNNmodel(object): """ Deep Neural Networks for YouTube candidate generation """ def __init__(self, dnn_layer_dims=None, feature_dict=None, item_freq=None, is_infer=False): """ initialize model """ self._dnn_layer_dims = dnn_layer_dims self._feature_dict = feature_dict self._item_freq = item_freq self._is_infer = is_infer # build model self._build_input_layer() self._build_embedding_layer() self.model_cost = self._build_dnn_model() def _build_input_layer(self): """ build input layer """ self._history_clicked_items = paddle.layer.data( name="history_clicked_items", type=paddle.data_type.integer_value_sequence( len(self._feature_dict['history_clicked_items']))) self._history_clicked_categories = paddle.layer.data( name="history_clicked_categories", type=paddle.data_type.integer_value_sequence( len(self._feature_dict['history_clicked_categories']))) self._history_clicked_tags = paddle.layer.data( name="history_clicked_tags", type=paddle.data_type.integer_value_sequence( len(self._feature_dict['history_clicked_tags']))) self._user_id = paddle.layer.data( name="user_id", type=paddle.data_type.integer_value( len(self._feature_dict['user_id']))) self._province = paddle.layer.data( name="province", type=paddle.data_type.integer_value( len(self._feature_dict['province']))) self._city = paddle.layer.data( name="city", type=paddle.data_type.integer_value( len(self._feature_dict['city']))) self._phone = paddle.layer.data( name="phone", type=paddle.data_type.integer_value( len(self._feature_dict['phone']))) self._target_item = paddle.layer.data( name="target_item", type=paddle.data_type.integer_value( len(self._feature_dict['history_clicked_items']))) def _create_emb_attr(self, name): """ create embedding parameter """ return paddle.attr.Param( name=name, initial_std=0.001, learning_rate=1, l2_rate=0, sparse_update=True) def _build_embedding_layer(self): """ build embedding layer """ self._user_id_emb = paddle.layer.embedding( input=self._user_id, size=64, param_attr=self._create_emb_attr('_proj_user_id')) self._province_emb = paddle.layer.embedding( input=self._province, size=8, param_attr=self._create_emb_attr('_proj_province')) self._city_emb = paddle.layer.embedding( input=self._city, size=16, param_attr=self._create_emb_attr('_proj_city')) self._phone_emb = paddle.layer.embedding( input=self._phone, size=16, param_attr=self._create_emb_attr('_proj_phone')) self._history_clicked_items_emb = paddle.layer.embedding( input=self._history_clicked_items, size=64, param_attr=self._create_emb_attr('_proj_history_clicked_items')) self._history_clicked_categories_emb = paddle.layer.embedding( input=self._history_clicked_categories, size=8, param_attr=self._create_emb_attr( '_proj_history_clicked_categories')) self._history_clicked_tags_emb = paddle.layer.embedding( input=self._history_clicked_tags, size=64, param_attr=self._create_emb_attr('_proj_history_clicked_tags')) def _build_dnn_model(self): """ build dnn model """ self._rnn_cell = paddle.networks.simple_lstm( input=self._history_clicked_items_emb, size=64) self._lstm_last = paddle.layer.pooling( input=self._rnn_cell, pooling_type=paddle.pooling.Max()) self._avg_emb_cats = paddle.layer.pooling( input=self._history_clicked_categories_emb, pooling_type=paddle.pooling.Avg()) self._avg_emb_tags = paddle.layer.pooling( input=self._history_clicked_tags_emb, pooling_type=paddle.pooling.Avg()) self._fc_0 = paddle.layer.fc( name="Relu1", input=[ self._lstm_last, self._user_id_emb, self._province_emb, self._city_emb, self._avg_emb_cats, self._avg_emb_tags, self._phone_emb ], size=self._dnn_layer_dims[0], act=paddle.activation.Relu()) self._fc_1 = paddle.layer.fc( name="Relu2", input=self._fc_0, size=self._dnn_layer_dims[1], act=paddle.activation.Relu()) if not self._is_infer: return paddle.layer.nce( input=self._fc_1, label=self._target_item, num_classes=len(self._feature_dict['history_clicked_items']), param_attr=paddle.attr.Param(name="nce_w"), bias_attr=paddle.attr.Param(name="nce_b"), act=paddle.activation.Sigmoid(), num_neg_samples=5, neg_distribution=self._item_freq) else: self.prediction_layer = paddle.layer.mixed( size=len(self._feature_dict['history_clicked_items']), input=paddle.layer.trans_full_matrix_projection( self._fc_1, param_attr=paddle.attr.Param(name="nce_w")), act=paddle.activation.Softmax(), bias_attr=paddle.attr.Param(name="nce_b")) return self.prediction_layer, self._fc_1 if __name__ == "__main__": # this is to test and debug the network topology defination. # please set the hyper-parameters as needed. item_freq_path = "./output/item_freq.pkl" with open(item_freq_path) as f: item_freq = cPickle.load(f) feature_dict_path = "./output/feature_dict.pkl" with open(feature_dict_path) as f: feature_dict = cPickle.load(f) a = DNNmodel( dnn_layer_dims=[256, 31], feature_dict=feature_dict, item_freq=item_freq, is_infer=False)