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model.py
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model.py
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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import math
import paddle.fluid as fluid
from paddlerec.core.utils import envs
from paddlerec.core.model import ModelBase
class Model(ModelBase):
def __init__(self, config):
ModelBase.__init__(self, config)
def _init_hyper_parameters(self):
self.sparse_feature_number = envs.get_global_env(
"hyper_parameters.sparse_feature_number", None)
self.sparse_feature_dim = envs.get_global_env(
"hyper_parameters.sparse_feature_dim", None)
self.num_field = envs.get_global_env("hyper_parameters.num_field",
None)
self.reg = envs.get_global_env("hyper_parameters.reg", 1e-4)
self.layer_sizes = envs.get_global_env("hyper_parameters.fc_sizes",
None)
self.act = envs.get_global_env("hyper_parameters.act", None)
def net(self, inputs, is_infer=False):
init_value_ = 0.1
is_distributed = True if envs.get_trainer() == "CtrTrainer" else False
# ------------------------- network input --------------------------
raw_feat_idx = self._sparse_data_var[1]
raw_feat_value = self._dense_data_var[0]
self.label = self._sparse_data_var[0]
feat_idx = raw_feat_idx
feat_value = fluid.layers.reshape(
raw_feat_value, [-1, self.num_field, 1]) # None * num_field * 1
first_weights_re = fluid.embedding(
input=feat_idx,
is_sparse=True,
is_distributed=is_distributed,
dtype='float32',
size=[self.sparse_feature_number + 1, 1],
padding_idx=0,
param_attr=fluid.ParamAttr(
initializer=fluid.initializer.TruncatedNormalInitializer(
loc=0.0, scale=init_value_),
regularizer=fluid.regularizer.L1DecayRegularizer(self.reg)))
first_weights = fluid.layers.reshape(
first_weights_re,
shape=[-1, self.num_field, 1]) # None * num_field * 1
y_first_order = fluid.layers.reduce_sum((first_weights * feat_value),
1)
# ------------------------- second order term --------------------------
feat_embeddings_re = fluid.embedding(
input=feat_idx,
is_sparse=True,
is_distributed=is_distributed,
dtype='float32',
size=[self.sparse_feature_number + 1, self.sparse_feature_dim],
padding_idx=0,
param_attr=fluid.ParamAttr(
initializer=fluid.initializer.TruncatedNormalInitializer(
loc=0.0,
scale=init_value_ /
math.sqrt(float(self.sparse_feature_dim)))))
feat_embeddings = fluid.layers.reshape(
feat_embeddings_re,
shape=[-1, self.num_field, self.sparse_feature_dim
]) # None * num_field * embedding_size
# None * num_field * embedding_size
feat_embeddings = feat_embeddings * feat_value
# sum_square part
summed_features_emb = fluid.layers.reduce_sum(
feat_embeddings, 1) # None * embedding_size
summed_features_emb_square = fluid.layers.square(
summed_features_emb) # None * embedding_size
# square_sum part
squared_features_emb = fluid.layers.square(
feat_embeddings) # None * num_field * embedding_size
squared_sum_features_emb = fluid.layers.reduce_sum(
squared_features_emb, 1) # None * embedding_size
y_second_order = 0.5 * fluid.layers.reduce_sum(
summed_features_emb_square - squared_sum_features_emb,
1,
keep_dim=True) # None * 1
# ------------------------- DNN --------------------------
y_dnn = fluid.layers.reshape(
feat_embeddings, [-1, self.num_field * self.sparse_feature_dim])
for s in self.layer_sizes:
y_dnn = fluid.layers.fc(
input=y_dnn,
size=s,
act=self.act,
param_attr=fluid.ParamAttr(
initializer=fluid.initializer.TruncatedNormalInitializer(
loc=0.0, scale=init_value_ / math.sqrt(float(10)))),
bias_attr=fluid.ParamAttr(
initializer=fluid.initializer.TruncatedNormalInitializer(
loc=0.0, scale=init_value_)))
y_dnn = fluid.layers.fc(
input=y_dnn,
size=1,
act=None,
param_attr=fluid.ParamAttr(
initializer=fluid.initializer.TruncatedNormalInitializer(
loc=0.0, scale=init_value_)),
bias_attr=fluid.ParamAttr(
initializer=fluid.initializer.TruncatedNormalInitializer(
loc=0.0, scale=init_value_)))
# ------------------------- DeepFM --------------------------
self.predict = fluid.layers.sigmoid(y_first_order + y_second_order +
y_dnn)
cost = fluid.layers.log_loss(
input=self.predict, label=fluid.layers.cast(self.label, "float32"))
avg_cost = fluid.layers.reduce_sum(cost)
self._cost = avg_cost
predict_2d = fluid.layers.concat([1 - self.predict, self.predict], 1)
label_int = fluid.layers.cast(self.label, 'int64')
auc_var, batch_auc_var, _ = fluid.layers.auc(input=predict_2d,
label=label_int,
slide_steps=0)
self._metrics["AUC"] = auc_var
self._metrics["BATCH_AUC"] = batch_auc_var
if is_infer:
self._infer_results["AUC"] = auc_var