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static_model.py
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static_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
import numpy as np
#from net import DIENLayer, StaticDIENLayer
from net import StaticDIENLayer
class StaticModel():
def __init__(self, config):
self.cost = None
self.infer_target_var = None
self.config = config
self._init_hyper_parameters()
def _init_hyper_parameters(self):
self.is_distributed = False
self.distributed_embedding = False
if self.config.get("hyper_parameters.distributed_embedding", 0) == 1:
self.distributed_embedding = True
self.item_emb_size = self.config.get("hyper_parameters.item_emb_size",
64)
self.cat_emb_size = self.config.get("hyper_parameters.cat_emb_size",
64)
self.act = self.config.get("hyper_parameters.act", "sigmoid")
self.is_sparse = self.config.get("hyper_parameters.is_sparse", False)
self.use_DataLoader = self.config.get(
"hyper_parameters.use_DataLoader", False)
self.item_count = self.config.get("hyper_parameters.item_count", 63001)
self.cat_count = self.config.get("hyper_parameters.cat_count", 801)
self.learning_rate_base_lr = self.config.get(
"hyper_parameters.optimizer.learning_rate_base_lr")
def create_feeds(self, is_infer=False):
seq_len = -1
self.data_var = []
hist_item_seq = paddle.static.data(
name="hist_item_seq", shape=[None, seq_len], dtype="int64")
self.data_var.append(hist_item_seq)
hist_cat_seq = paddle.static.data(
name="hist_cat_seq", shape=[None, seq_len], dtype="int64")
self.data_var.append(hist_cat_seq)
target_item = paddle.static.data(
name="target_item", shape=[None], dtype="int64")
self.data_var.append(target_item)
target_cat = paddle.static.data(
name="target_cat", shape=[None], dtype="int64")
self.data_var.append(target_cat)
label = paddle.static.data(
name="label", shape=[-1, 1], dtype="float32")
self.data_var.append(label)
mask = paddle.static.data(
name="mask", shape=[None, seq_len, 1], dtype="float32")
self.data_var.append(mask)
target_item_seq = paddle.static.data(
name="target_item_seq", shape=[None, seq_len], dtype="int64")
self.data_var.append(target_item_seq)
target_cat_seq = paddle.static.data(
name="target_cat_seq", shape=[None, seq_len], dtype="int64")
self.data_var.append(target_cat_seq)
neg_hist_item_seq = paddle.static.data(
name="neg_hist_item_seq", shape=[None, seq_len], dtype="int64")
self.data_var.append(neg_hist_item_seq)
neg_hist_cat_seq = paddle.static.data(
name="neg_hist_cat_seq", shape=[None, seq_len], dtype="int64")
self.data_var.append(neg_hist_cat_seq)
train_inputs = [hist_item_seq] + [hist_cat_seq] + [target_item] + [
target_cat
] + [label] + [mask] + [target_item_seq] + [target_cat_seq] + [
neg_hist_item_seq
] + [neg_hist_cat_seq]
return train_inputs
def net(self, inputs, is_infer=False):
self.hist_item_seq = inputs[0]
self.hist_cat_seq = inputs[1]
self.target_item = inputs[2]
self.target_cat = inputs[3]
self.label = inputs[4].reshape([-1, 1])
self.mask = inputs[5]
self.target_item_seq = inputs[6]
self.target_cat_seq = inputs[7]
self.neg_hist_item_seq = inputs[8] # neg item sampling for aux loss
self.neg_hist_cat_seq = inputs[9] # neg cat sampling for aux loss
dien_model = StaticDIENLayer(
self.item_emb_size, self.cat_emb_size, self.act, self.is_sparse,
self.use_DataLoader, self.item_count, self.cat_count)
logit, aux_loss = dien_model.forward(
self.hist_item_seq, self.hist_cat_seq, self.target_item,
self.target_cat, self.label, self.mask, self.target_item_seq,
self.target_cat_seq, self.neg_hist_item_seq, self.neg_hist_cat_seq)
avg_loss = paddle.nn.functional.binary_cross_entropy_with_logits(
logit, self.label, reduction='mean')
self._cost = aux_loss + avg_loss
self.predict = paddle.nn.functional.sigmoid(logit)
predict_2d = paddle.concat([1 - self.predict, self.predict], 1)
label_int = paddle.cast(self.label, 'int64')
auc, batch_auc, _ = paddle.static.auc(input=predict_2d,
label=label_int,
slide_steps=0)
if is_infer:
fetch_dict = {'auc': auc}
return fetch_dict
fetch_dict = {'auc': auc, 'cost': self._cost}
return fetch_dict
def create_optimizer(self, strategy=None):
# optimizer = paddle.optimizer.Adam(learning_rate=self.learning_rate)
# if strategy != None:
# import paddle.distributed.fleet as fleet
# optimizer = fleet.distributed_optimizer(optimizer, strategy)
# optimizer.minimize(self._cost)
boundaries = [410000]
values = [self.learning_rate_base_lr, 0.2]
optimizer = paddle.optimizer.SGD(
learning_rate=paddle.optimizer.lr.PiecewiseDecay(
boundaries=boundaries, values=values))
if strategy != None:
import paddle.distributed.fleet as fleet
optimizer = fleet.distributed_optimizer(optimizer, strategy)
optimizer.minimize(self._cost)
return optimizer
def infer_net(self, input):
return self.net(input, is_infer=True)