提交 e8d99992 编写于 作者: X xjqbest

fix

上级 e91f9dd2
......@@ -38,6 +38,8 @@ def trainer_registry():
"tdm_cluster_trainer.py")
trainers["SingleTrainerYamlOpt"] = os.path.join(trainer_abs,
"single_trainer_yamlopt.py")
trainers["SingleAucYamlOpt"] = os.path.join(trainer_abs,
"single_auc_yamlopt.py")
trainer_registry()
......
# 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.
"""
Training use fluid with one node only.
"""
from __future__ import print_function
import time
import logging
import os
import paddle.fluid as fluid
from paddlerec.core.trainers.transpiler_trainer import TranspileTrainer
from paddlerec.core.utils import envs
from paddlerec.core.reader import SlotReader
logging.basicConfig(format="%(asctime)s - %(levelname)s - %(message)s")
logger = logging.getLogger("fluid")
logger.setLevel(logging.INFO)
class SingleAucYamlOpt(TranspileTrainer):
def __init__(self, config=None):
super(TranspileTrainer, self).__init__(config)
self._env = self._config
device = envs.get_global_env("device")
if device == 'gpu':
self._place = fluid.CUDAPlace(0)
elif device == 'cpu':
self._place = fluid.CPUPlace()
self._exe = fluid.Executor(self._place)
self.processor_register()
self._model = {}
self._dataset = {}
envs.set_global_envs(self._config)
envs.update_workspace()
def processor_register(self):
self.regist_context_processor('uninit', self.instance)
self.regist_context_processor('init_pass', self.init)
self.regist_context_processor('startup_pass', self.startup)
self.regist_context_processor('train_pass', self.executor_train)
self.regist_context_processor('terminal_pass', self.terminal)
def instance(self, context):
context['status'] = 'init_pass'
def _create_dataset(self, dataset_name):
name = "dataset." + dataset_name + "."
sparse_slots = envs.get_global_env(name + "sparse_slots")
dense_slots = envs.get_global_env(name + "dense_slots")
thread_num = envs.get_global_env(name + "thread_num")
batch_size = envs.get_global_env(name + "batch_size")
reader_type = envs.get_global_env(name + "type")
if envs.get_platform() != "LINUX":
print("platform ", envs.get_platform(), " change reader to DataLoader")
reader_type = "DataLoader"
padding = 0
reader = envs.path_adapter("paddlerec.core.utils") + "/dataset_instance.py"
pipe_cmd = "python {} {} {} {} {} {} {} {}".format(
reader, "slot", "slot", self._config_yaml, "fake", \
sparse_slots.replace(" ", "#"), dense_slots.replace(" ", "#"), str(padding))
type_name = envs.get_global_env(name + "type")
if type_name == "QueueDataset":
dataset = fluid.DatasetFactory().create_dataset()
dataset.set_batch_size(envs.get_global_env(name + "batch_size"))
dataset.set_pipe_command(pipe_cmd)
train_data_path = envs.get_global_env(name + "data_path")
file_list = [
os.path.join(train_data_path, x)
for x in os.listdir(train_data_path)
]
dataset.set_filelist(file_list)
for model_dict in self._env["executor"]:
if model_dict["dataset_name"] == dataset_name:
model = self._model[model_dict["name"]][3]
inputs = model.get_inputs()
dataset.set_use_var(inputs)
break
else:
pass
return dataset
def init(self, context):
for model_dict in self._env["executor"]:
self._model[model_dict["name"]] = [None] * 4
train_program = fluid.Program()
startup_program = fluid.Program()
scope = fluid.Scope()
opt_name = envs.get_global_env("hyper_parameters.optimizer.class")
opt_lr = envs.get_global_env("hyper_parameters.optimizer.learning_rate")
opt_strategy = envs.get_global_env("hyper_parameters.optimizer.strategy")
with fluid.program_guard(train_program, startup_program):
with fluid.unique_name.guard():
model_path = model_dict["model"].replace("{workspace}", envs.path_adapter(self._env["workspace"]))
model = envs.lazy_instance_by_fliename(model_path, "Model")(self._env)
model._data_var = model.input_data(dataset_name=model_dict["dataset_name"])
model.net(None, is_infer=True)
optimizer = model._build_optimizer(opt_name, opt_lr, opt_strategy)
optimizer.minimize(model._cost)
self._model[model_dict["name"]][0] = train_program
self._model[model_dict["name"]][1] = startup_program
self._model[model_dict["name"]][2] = scope
self._model[model_dict["name"]][3] = model
for dataset in self._env["dataset"]:
self._dataset[dataset["name"]] = self._create_dataset(dataset["name"])
context['status'] = 'startup_pass'
def startup(self, context):
for model_dict in self._env["executor"]:
with fluid.scope_guard(self._model[model_dict["name"]][2]):
self._exe.run(self._model[model_dict["name"]][1])
context['status'] = 'train_pass'
def executor_train(self, context):
epochs = int(self._env["epochs"])
for j in range(epochs):
for model_dict in self._env["executor"]:
reader_name = model_dict["dataset_name"]
name = "dataset." + reader_name + "."
begin_time = time.time()
if envs.get_global_env(name + "type") == "DataLoader":
self._executor_dataloader_train(model_dict)
else:
self._executor_dataset_train(model_dict)
end_time = time.time()
seconds = end_time - begin_time
print("epoch {} done, time elasped: {}".format(j, seconds))
context['status'] = "terminal_pass"
def _executor_dataset_train(self, model_dict):
reader_name = model_dict["dataset_name"]
model_name = model_dict["name"]
model_class = self._model[model_name][3]
fetch_vars = []
fetch_alias = []
fetch_period = 20
metrics = model_class.get_metrics()
if metrics:
fetch_vars = metrics.values()
fetch_alias = metrics.keys()
scope = self._model[model_name][2]
program = self._model[model_name][0]
reader = self._dataset[reader_name]
with fluid.scope_guard(scope):
self._exe.train_from_dataset(
program=program,
dataset=reader,
fetch_list=fetch_vars,
fetch_info=fetch_alias,
print_period=fetch_period)
def _executor_dataloader_train(self, model_dict):
reader_name = model_dict["dataset_name"]
model_name = model_dict["name"]
model_class = self._model[model_name][3]
self._model[model_name][1] = fluid.compiler.CompiledProgram(
self._model[model_name][1]).with_data_parallel(loss_name=model_class.get_avg_cost().name)
fetch_vars = []
fetch_alias = []
fetch_period = 20
metrics = model_class.get_metrics()
if metrics:
fetch_vars = metrics.values()
fetch_alias = metrics.keys()
metrics_varnames = []
metrics_format = []
metrics_format.append("{}: {{}}".format("epoch"))
metrics_format.append("{}: {{}}".format("batch"))
for name, var in model_class.items():
metrics_varnames.append(var.name)
metrics_format.append("{}: {{}}".format(name))
metrics_format = ", ".join(metrics_format)
reader = self._dataset[reader_name]
reader.start()
batch_id = 0
scope = self._model[model_name][2]
prorgram = self._model[model_name][0]
with fluid.scope_guard(scope):
try:
while True:
metrics_rets = self._exe.run(program=program,
fetch_list=metrics_varnames)
metrics = [epoch, batch_id]
metrics.extend(metrics_rets)
if batch_id % self.fetch_period == 0 and batch_id != 0:
print(metrics_format.format(*metrics))
batch_id += 1
except fluid.core.EOFException:
reader.reset()
def terminal(self, context):
context['is_exit'] = True
......@@ -57,12 +57,6 @@ class SingleTrainerYamlOpt(TranspileTrainer):
def instance(self, context):
context['status'] = 'init_pass'
def dataloader_train(self, context):
pass
def dataset_train(self, context):
pass
def _create_dataset(self, dataset_name):
name = "dataset." + dataset_name + "."
sparse_slots = envs.get_global_env(name + "sparse_slots")
......
......@@ -39,6 +39,7 @@ hyper_parameters:
epoch:
trainer_class: single_yamlopt
#trainer_class: single_auc_yamlopt
save_checkpoint_interval: 2
save_inference_interval: 4
save_checkpoint_path: "increment"
......
......@@ -28,7 +28,7 @@ device = ["CPU", "GPU"]
clusters = ["SINGLE", "LOCAL_CLUSTER", "CLUSTER"]
engine_choices = [
"SINGLE", "LOCAL_CLUSTER", "CLUSTER", "TDM_SINGLE", "TDM_LOCAL_CLUSTER",
"TDM_CLUSTER", "SINGLE_YAMLOPT"
"TDM_CLUSTER", "SINGLE_YAMLOPT", "SINGLE_AUC_YAMLOPT"
]
custom_model = ['TDM']
model_name = ""
......@@ -43,6 +43,7 @@ def engine_registry():
engines["TRANSPILER"]["CLUSTER"] = cluster_engine
engines["TRANSPILER"]["SINGLE_YAMLOPT"] = single_yamlopt_engine
engines["TRANSPILER"]["SINGLE_AUC_YAMLOPT"] = single_auc_yamlopt_engine
engines["PSLIB"]["SINGLE"] = local_mpi_engine
engines["PSLIB"]["LOCAL_CLUSTER"] = local_mpi_engine
......@@ -151,6 +152,19 @@ def single_yamlopt_engine(args):
trainer = TrainerFactory.create(args.model)
return trainer
def single_auc_yamlopt_engine(args):
trainer = get_trainer_prefix(args) + "SingleAucYamlOpt"
single_envs = {}
single_envs["train.trainer.trainer"] = trainer
single_envs["train.trainer.threads"] = "2"
single_envs["train.trainer.engine"] = "single_yamlopt"
single_envs["train.trainer.platform"] = envs.get_platform()
print("use {} engine to run model: {}".format(trainer, args.model))
set_runtime_envs(single_envs, args.model)
trainer = TrainerFactory.create(args.model)
return trainer
def cluster_engine(args):
def update_workspace(cluster_envs):
workspace = cluster_envs.get("engine_workspace", None)
......
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