mindspore/model_zoo/official/nlp/bert/run_classifier.py

# Copyright 2020 Huawei Technologies Co., Ltd
#
# 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.
# ============================================================================

'''
Bert finetune and evaluation script.
'''

import os
import argparse
from src.bert_for_finetune import BertFinetuneCell, BertCLS
from src.finetune_eval_config import optimizer_cfg, bert_net_cfg
from src.dataset import create_classification_dataset
from src.assessment_method import Accuracy, F1, MCC, Spearman_Correlation
from src.utils import make_directory, LossCallBack, LoadNewestCkpt, BertLearningRate
import mindspore.common.dtype as mstype
from mindspore import context
from mindspore import log as logger
from mindspore.nn.wrap.loss_scale import DynamicLossScaleUpdateCell
from mindspore.nn.optim import AdamWeightDecay, Lamb, Momentum
from mindspore.train.model import Model
from mindspore.train.callback import CheckpointConfig, ModelCheckpoint, TimeMonitor
from mindspore.train.serialization import load_checkpoint, load_param_into_net

_cur_dir = os.getcwd()

def do_train(dataset=None, network=None, load_checkpoint_path="", save_checkpoint_path="", epoch_num=1):
    """ do train """
    if load_checkpoint_path == "":
        raise ValueError("Pretrain model missed, finetune task must load pretrain model!")
    steps_per_epoch = dataset.get_dataset_size()
    # optimizer
    if optimizer_cfg.optimizer == 'AdamWeightDecay':
        lr_schedule = BertLearningRate(learning_rate=optimizer_cfg.AdamWeightDecay.learning_rate,
                                       end_learning_rate=optimizer_cfg.AdamWeightDecay.end_learning_rate,
                                       warmup_steps=int(steps_per_epoch * epoch_num * 0.1),
                                       decay_steps=steps_per_epoch * epoch_num,
                                       power=optimizer_cfg.AdamWeightDecay.power)
        params = network.trainable_params()
        decay_params = list(filter(optimizer_cfg.AdamWeightDecay.decay_filter, params))
        other_params = list(filter(lambda x: not optimizer_cfg.AdamWeightDecay.decay_filter(x), params))
        group_params = [{'params': decay_params, 'weight_decay': optimizer_cfg.AdamWeightDecay.weight_decay},
                        {'params': other_params, 'weight_decay': 0.0}]

        optimizer = AdamWeightDecay(group_params, lr_schedule, eps=optimizer_cfg.AdamWeightDecay.eps)
    elif optimizer_cfg.optimizer == 'Lamb':
        lr_schedule = BertLearningRate(learning_rate=optimizer_cfg.Lamb.learning_rate,
                                       end_learning_rate=optimizer_cfg.Lamb.end_learning_rate,
                                       warmup_steps=int(steps_per_epoch * epoch_num * 0.1),
                                       decay_steps=steps_per_epoch * epoch_num,
                                       power=optimizer_cfg.Lamb.power)
        optimizer = Lamb(network.trainable_params(), learning_rate=lr_schedule)
    elif optimizer_cfg.optimizer == 'Momentum':
        optimizer = Momentum(network.trainable_params(), learning_rate=optimizer_cfg.Momentum.learning_rate,
                             momentum=optimizer_cfg.Momentum.momentum)
    else:
        raise Exception("Optimizer not supported. support: [AdamWeightDecay, Lamb, Momentum]")

    # load checkpoint into network
    ckpt_config = CheckpointConfig(save_checkpoint_steps=steps_per_epoch, keep_checkpoint_max=1)
    ckpoint_cb = ModelCheckpoint(prefix="classifier",
                                 directory=None if save_checkpoint_path == "" else save_checkpoint_path,
                                 config=ckpt_config)
    param_dict = load_checkpoint(load_checkpoint_path)
    load_param_into_net(network, param_dict)

    update_cell = DynamicLossScaleUpdateCell(loss_scale_value=2**32, scale_factor=2, scale_window=1000)
    netwithgrads = BertFinetuneCell(network, optimizer=optimizer, scale_update_cell=update_cell)
    model = Model(netwithgrads)
    callbacks = [TimeMonitor(dataset.get_dataset_size()), LossCallBack(dataset.get_dataset_size()), ckpoint_cb]
    model.train(epoch_num, dataset, callbacks=callbacks)

def eval_result_print(assessment_method="accuracy", callback=None):
    """ print eval result """
    if assessment_method == "accuracy":
        print("acc_num {} , total_num {}, accuracy {:.6f}".format(callback.acc_num, callback.total_num,
                                                                  callback.acc_num / callback.total_num))
    elif assessment_method == "f1":
        print("Precision {:.6f} ".format(callback.TP / (callback.TP + callback.FP)))
        print("Recall {:.6f} ".format(callback.TP / (callback.TP + callback.FN)))
        print("F1 {:.6f} ".format(2 * callback.TP / (2 * callback.TP + callback.FP + callback.FN)))
    elif assessment_method == "mcc":
        print("MCC {:.6f} ".format(callback.cal()))
    elif assessment_method == "spearman_correlation":
        print("Spearman Correlation is {:.6f} ".format(callback.cal()[0]))
    else:
        raise ValueError("Assessment method not supported, support: [accuracy, f1, mcc, spearman_correlation]")

def do_eval(dataset=None, network=None, num_class=2, assessment_method="accuracy", load_checkpoint_path=""):
    """ do eval """
    if load_checkpoint_path == "":
        raise ValueError("Finetune model missed, evaluation task must load finetune model!")
    net_for_pretraining = network(bert_net_cfg, False, num_class)
    net_for_pretraining.set_train(False)
    param_dict = load_checkpoint(load_checkpoint_path)
    load_param_into_net(net_for_pretraining, param_dict)
    model = Model(net_for_pretraining)

    if assessment_method == "accuracy":
        callback = Accuracy()
    elif assessment_method == "f1":
        callback = F1(False, num_class)
    elif assessment_method == "mcc":
        callback = MCC()
    elif assessment_method == "spearman_correlation":
        callback = Spearman_Correlation()
    else:
        raise ValueError("Assessment method not supported, support: [accuracy, f1, mcc, spearman_correlation]")

    columns_list = ["input_ids", "input_mask", "segment_ids", "label_ids"]
    for data in dataset.create_dict_iterator(num_epochs=1):
        input_data = []
        for i in columns_list:
            input_data.append(data[i])
        input_ids, input_mask, token_type_id, label_ids = input_data
        logits = model.predict(input_ids, input_mask, token_type_id, label_ids)
        callback.update(logits, label_ids)
    print("==============================================================")
    eval_result_print(assessment_method, callback)
    print("==============================================================")

def run_classifier():
    """run classifier task"""
    parser = argparse.ArgumentParser(description="run classifier")
    parser.add_argument("--device_target", type=str, default="Ascend", choices=["Ascend", "GPU"],
                        help="Device type, default is Ascend")
    parser.add_argument("--assessment_method", type=str, default="Accuracy",
                        choices=["Mcc", "Spearman_correlation", "Accuracy", "F1"],
                        help="assessment_method including [Mcc, Spearman_correlation, Accuracy, F1],\
                             default is Accuracy")
    parser.add_argument("--do_train", type=str, default="false", choices=["true", "false"],
                        help="Enable train, default is false")
    parser.add_argument("--do_eval", type=str, default="false", choices=["true", "false"],
                        help="Enable eval, default is false")
    parser.add_argument("--device_id", type=int, default=0, help="Device id, default is 0.")
    parser.add_argument("--epoch_num", type=int, default=3, help="Epoch number, default is 3.")
    parser.add_argument("--num_class", type=int, default=2, help="The number of class, default is 2.")
    parser.add_argument("--train_data_shuffle", type=str, default="true", choices=["true", "false"],
                        help="Enable train data shuffle, default is true")
    parser.add_argument("--eval_data_shuffle", type=str, default="false", choices=["true", "false"],
                        help="Enable eval data shuffle, default is false")
    parser.add_argument("--train_batch_size", type=int, default=32, help="Train batch size, default is 32")
    parser.add_argument("--eval_batch_size", type=int, default=1, help="Eval batch size, default is 1")
    parser.add_argument("--save_finetune_checkpoint_path", type=str, default="", help="Save checkpoint path")
    parser.add_argument("--load_pretrain_checkpoint_path", type=str, default="", help="Load checkpoint file path")
    parser.add_argument("--load_finetune_checkpoint_path", type=str, default="", help="Load checkpoint file path")
    parser.add_argument("--train_data_file_path", type=str, default="",
                        help="Data path, it is better to use absolute path")
    parser.add_argument("--eval_data_file_path", type=str, default="",
                        help="Data path, it is better to use absolute path")
    parser.add_argument("--schema_file_path", type=str, default="",
                        help="Schema path, it is better to use absolute path")
    args_opt = parser.parse_args()
    epoch_num = args_opt.epoch_num
    assessment_method = args_opt.assessment_method.lower()
    load_pretrain_checkpoint_path = args_opt.load_pretrain_checkpoint_path
    save_finetune_checkpoint_path = args_opt.save_finetune_checkpoint_path
    load_finetune_checkpoint_path = args_opt.load_finetune_checkpoint_path

    if args_opt.do_train.lower() == "false" and args_opt.do_eval.lower() == "false":
        raise ValueError("At least one of 'do_train' or 'do_eval' must be true")
    if args_opt.do_train.lower() == "true" and args_opt.train_data_file_path == "":
        raise ValueError("'train_data_file_path' must be set when do finetune task")
    if args_opt.do_eval.lower() == "true" and args_opt.eval_data_file_path == "":
        raise ValueError("'eval_data_file_path' must be set when do evaluation task")

    target = args_opt.device_target
    if target == "Ascend":
        context.set_context(mode=context.GRAPH_MODE, device_target="Ascend", device_id=args_opt.device_id)
    elif target == "GPU":
        context.set_context(mode=context.GRAPH_MODE, device_target="GPU")
        if bert_net_cfg.compute_type != mstype.float32:
            logger.warning('GPU only support fp32 temporarily, run with fp32.')
            bert_net_cfg.compute_type = mstype.float32
    else:
        raise Exception("Target error, GPU or Ascend is supported.")

    netwithloss = BertCLS(bert_net_cfg, True, num_labels=args_opt.num_class, dropout_prob=0.1,
                          assessment_method=assessment_method)

    if args_opt.do_train.lower() == "true":
        ds = create_classification_dataset(batch_size=args_opt.train_batch_size, repeat_count=1,
                                           assessment_method=assessment_method,
                                           data_file_path=args_opt.train_data_file_path,
                                           schema_file_path=args_opt.schema_file_path,
                                           do_shuffle=(args_opt.train_data_shuffle.lower() == "true"))
        do_train(ds, netwithloss, load_pretrain_checkpoint_path, save_finetune_checkpoint_path, epoch_num)

        if args_opt.do_eval.lower() == "true":
            if save_finetune_checkpoint_path == "":
                load_finetune_checkpoint_dir = _cur_dir
            else:
                load_finetune_checkpoint_dir = make_directory(save_finetune_checkpoint_path)
            load_finetune_checkpoint_path = LoadNewestCkpt(load_finetune_checkpoint_dir,
                                                           ds.get_dataset_size(), epoch_num, "classifier")

    if args_opt.do_eval.lower() == "true":
        ds = create_classification_dataset(batch_size=args_opt.eval_batch_size, repeat_count=1,
                                           assessment_method=assessment_method,
                                           data_file_path=args_opt.eval_data_file_path,
                                           schema_file_path=args_opt.schema_file_path,
                                           do_shuffle=(args_opt.eval_data_shuffle.lower() == "true"))
        do_eval(ds, BertCLS, args_opt.num_class, assessment_method, load_finetune_checkpoint_path)

if __name__ == "__main__":
    run_classifier()
adjust finetune and eval script 5 years ago			`# Copyright 2020 Huawei Technologies Co., Ltd`
			`#`
			`# 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.`
			`# ============================================================================`

			`'''`
			`Bert finetune and evaluation script.`
			`'''`

			`import os`
			`import argparse`
			`from src.bert_for_finetune import BertFinetuneCell, BertCLS`
			`from src.finetune_eval_config import optimizer_cfg, bert_net_cfg`
			`from src.dataset import create_classification_dataset`
			`from src.assessment_method import Accuracy, F1, MCC, Spearman_Correlation`
uniform learning_rate behavior of optimizers 5 years ago			`from src.utils import make_directory, LossCallBack, LoadNewestCkpt, BertLearningRate`
adjust finetune and eval script 5 years ago			`import mindspore.common.dtype as mstype`
			`from mindspore import context`
			`from mindspore import log as logger`
			`from mindspore.nn.wrap.loss_scale import DynamicLossScaleUpdateCell`
uniform learning_rate behavior of optimizers 5 years ago			`from mindspore.nn.optim import AdamWeightDecay, Lamb, Momentum`
adjust finetune and eval script 5 years ago			`from mindspore.train.model import Model`
			`from mindspore.train.callback import CheckpointConfig, ModelCheckpoint, TimeMonitor`
			`from mindspore.train.serialization import load_checkpoint, load_param_into_net`

			`_cur_dir = os.getcwd()`

inject epoch ctrl op in the execution tree and send eos at the end of epoch 5 years ago			`def do_train(dataset=None, network=None, load_checkpoint_path="", save_checkpoint_path="", epoch_num=1):`
adjust finetune and eval script 5 years ago			`""" do train """`
			`if load_checkpoint_path == "":`
			`raise ValueError("Pretrain model missed, finetune task must load pretrain model!")`
			`steps_per_epoch = dataset.get_dataset_size()`
			`# optimizer`
uniform learning_rate behavior of optimizers 5 years ago			`if optimizer_cfg.optimizer == 'AdamWeightDecay':`
			`lr_schedule = BertLearningRate(learning_rate=optimizer_cfg.AdamWeightDecay.learning_rate,`
			`end_learning_rate=optimizer_cfg.AdamWeightDecay.end_learning_rate,`
			`warmup_steps=int(steps_per_epoch * epoch_num * 0.1),`
			`decay_steps=steps_per_epoch * epoch_num,`
			`power=optimizer_cfg.AdamWeightDecay.power)`
modify BERT and TinyBERT README.md 5 years ago			`params = network.trainable_params()`
uniform learning_rate behavior of optimizers 5 years ago			`decay_params = list(filter(optimizer_cfg.AdamWeightDecay.decay_filter, params))`
bugfix bert script 5 years ago			`other_params = list(filter(lambda x: not optimizer_cfg.AdamWeightDecay.decay_filter(x), params))`
uniform learning_rate behavior of optimizers 5 years ago			`group_params = [{'params': decay_params, 'weight_decay': optimizer_cfg.AdamWeightDecay.weight_decay},`
			`{'params': other_params, 'weight_decay': 0.0}]`

			`optimizer = AdamWeightDecay(group_params, lr_schedule, eps=optimizer_cfg.AdamWeightDecay.eps)`
adjust finetune and eval script 5 years ago			`elif optimizer_cfg.optimizer == 'Lamb':`
uniform learning_rate behavior of optimizers 5 years ago			`lr_schedule = BertLearningRate(learning_rate=optimizer_cfg.Lamb.learning_rate,`
			`end_learning_rate=optimizer_cfg.Lamb.end_learning_rate,`
			`warmup_steps=int(steps_per_epoch * epoch_num * 0.1),`
			`decay_steps=steps_per_epoch * epoch_num,`
			`power=optimizer_cfg.Lamb.power)`
			`optimizer = Lamb(network.trainable_params(), learning_rate=lr_schedule)`
adjust finetune and eval script 5 years ago			`elif optimizer_cfg.optimizer == 'Momentum':`
			`optimizer = Momentum(network.trainable_params(), learning_rate=optimizer_cfg.Momentum.learning_rate,`
			`momentum=optimizer_cfg.Momentum.momentum)`
			`else:`
uniform learning_rate behavior of optimizers 5 years ago			`raise Exception("Optimizer not supported. support: [AdamWeightDecay, Lamb, Momentum]")`
adjust finetune and eval script 5 years ago
			`# load checkpoint into network`
			`ckpt_config = CheckpointConfig(save_checkpoint_steps=steps_per_epoch, keep_checkpoint_max=1)`
bugfix bert script 5 years ago			`ckpoint_cb = ModelCheckpoint(prefix="classifier",`
			`directory=None if save_checkpoint_path == "" else save_checkpoint_path,`
			`config=ckpt_config)`
adjust finetune and eval script 5 years ago			`param_dict = load_checkpoint(load_checkpoint_path)`
			`load_param_into_net(network, param_dict)`

			`update_cell = DynamicLossScaleUpdateCell(loss_scale_value=2**32, scale_factor=2, scale_window=1000)`
			`netwithgrads = BertFinetuneCell(network, optimizer=optimizer, scale_update_cell=update_cell)`
			`model = Model(netwithgrads)`
fix loss print in bert and corresponding downstream task 4 years ago			`callbacks = [TimeMonitor(dataset.get_dataset_size()), LossCallBack(dataset.get_dataset_size()), ckpoint_cb]`
adjust finetune and eval script 5 years ago			`model.train(epoch_num, dataset, callbacks=callbacks)`

			`def eval_result_print(assessment_method="accuracy", callback=None):`
			`""" print eval result """`
			`if assessment_method == "accuracy":`
			`print("acc_num {} , total_num {}, accuracy {:.6f}".format(callback.acc_num, callback.total_num,`
			`callback.acc_num / callback.total_num))`
			`elif assessment_method == "f1":`
			`print("Precision {:.6f} ".format(callback.TP / (callback.TP + callback.FP)))`
			`print("Recall {:.6f} ".format(callback.TP / (callback.TP + callback.FN)))`
			`print("F1 {:.6f} ".format(2 * callback.TP / (2 * callback.TP + callback.FP + callback.FN)))`
			`elif assessment_method == "mcc":`
			`print("MCC {:.6f} ".format(callback.cal()))`
			`elif assessment_method == "spearman_correlation":`
			`print("Spearman Correlation is {:.6f} ".format(callback.cal()[0]))`
			`else:`
			`raise ValueError("Assessment method not supported, support: [accuracy, f1, mcc, spearman_correlation]")`

			`def do_eval(dataset=None, network=None, num_class=2, assessment_method="accuracy", load_checkpoint_path=""):`
			`""" do eval """`
			`if load_checkpoint_path == "":`
			`raise ValueError("Finetune model missed, evaluation task must load finetune model!")`
			`net_for_pretraining = network(bert_net_cfg, False, num_class)`
			`net_for_pretraining.set_train(False)`
			`param_dict = load_checkpoint(load_checkpoint_path)`
			`load_param_into_net(net_for_pretraining, param_dict)`
			`model = Model(net_for_pretraining)`

			`if assessment_method == "accuracy":`
			`callback = Accuracy()`
			`elif assessment_method == "f1":`
			`callback = F1(False, num_class)`
			`elif assessment_method == "mcc":`
			`callback = MCC()`
			`elif assessment_method == "spearman_correlation":`
			`callback = Spearman_Correlation()`
			`else:`
			`raise ValueError("Assessment method not supported, support: [accuracy, f1, mcc, spearman_correlation]")`

			`columns_list = ["input_ids", "input_mask", "segment_ids", "label_ids"]`
Add num_epochs to non-sink training 4 years ago			`for data in dataset.create_dict_iterator(num_epochs=1):`
adjust finetune and eval script 5 years ago			`input_data = []`
			`for i in columns_list:`
minddata iterator output ms_tensor 5 years ago			`input_data.append(data[i])`
adjust finetune and eval script 5 years ago			`input_ids, input_mask, token_type_id, label_ids = input_data`
			`logits = model.predict(input_ids, input_mask, token_type_id, label_ids)`
			`callback.update(logits, label_ids)`
			`print("==============================================================")`
			`eval_result_print(assessment_method, callback)`
			`print("==============================================================")`

			`def run_classifier():`
			`"""run classifier task"""`
			`parser = argparse.ArgumentParser(description="run classifier")`
enhancement 5 years ago			`parser.add_argument("--device_target", type=str, default="Ascend", choices=["Ascend", "GPU"],`
			`help="Device type, default is Ascend")`
bert script bugfix 5 years ago			`parser.add_argument("--assessment_method", type=str, default="Accuracy",`
			`choices=["Mcc", "Spearman_correlation", "Accuracy", "F1"],`
			`help="assessment_method including [Mcc, Spearman_correlation, Accuracy, F1],\`
			`default is Accuracy")`
enhancement 5 years ago			`parser.add_argument("--do_train", type=str, default="false", choices=["true", "false"],`
			`help="Enable train, default is false")`
			`parser.add_argument("--do_eval", type=str, default="false", choices=["true", "false"],`
			`help="Enable eval, default is false")`
adjust finetune and eval script 5 years ago			`parser.add_argument("--device_id", type=int, default=0, help="Device id, default is 0.")`
add squad 4 years ago			`parser.add_argument("--epoch_num", type=int, default=3, help="Epoch number, default is 3.")`
			`parser.add_argument("--num_class", type=int, default=2, help="The number of class, default is 2.")`
enhancement 5 years ago			`parser.add_argument("--train_data_shuffle", type=str, default="true", choices=["true", "false"],`
add switch for data shuffle 5 years ago			`help="Enable train data shuffle, default is true")`
enhancement 5 years ago			`parser.add_argument("--eval_data_shuffle", type=str, default="false", choices=["true", "false"],`
add switch for data shuffle 5 years ago			`help="Enable eval data shuffle, default is false")`
add squad 4 years ago			`parser.add_argument("--train_batch_size", type=int, default=32, help="Train batch size, default is 32")`
			`parser.add_argument("--eval_batch_size", type=int, default=1, help="Eval batch size, default is 1")`
adjust finetune and eval script 5 years ago			`parser.add_argument("--save_finetune_checkpoint_path", type=str, default="", help="Save checkpoint path")`
			`parser.add_argument("--load_pretrain_checkpoint_path", type=str, default="", help="Load checkpoint file path")`
			`parser.add_argument("--load_finetune_checkpoint_path", type=str, default="", help="Load checkpoint file path")`
			`parser.add_argument("--train_data_file_path", type=str, default="",`
			`help="Data path, it is better to use absolute path")`
			`parser.add_argument("--eval_data_file_path", type=str, default="",`
			`help="Data path, it is better to use absolute path")`
			`parser.add_argument("--schema_file_path", type=str, default="",`
			`help="Schema path, it is better to use absolute path")`
			`args_opt = parser.parse_args()`
			`epoch_num = args_opt.epoch_num`
			`assessment_method = args_opt.assessment_method.lower()`
			`load_pretrain_checkpoint_path = args_opt.load_pretrain_checkpoint_path`
			`save_finetune_checkpoint_path = args_opt.save_finetune_checkpoint_path`
			`load_finetune_checkpoint_path = args_opt.load_finetune_checkpoint_path`

			`if args_opt.do_train.lower() == "false" and args_opt.do_eval.lower() == "false":`
			`raise ValueError("At least one of 'do_train' or 'do_eval' must be true")`
			`if args_opt.do_train.lower() == "true" and args_opt.train_data_file_path == "":`
			`raise ValueError("'train_data_file_path' must be set when do finetune task")`
			`if args_opt.do_eval.lower() == "true" and args_opt.eval_data_file_path == "":`
			`raise ValueError("'eval_data_file_path' must be set when do evaluation task")`

			`target = args_opt.device_target`
			`if target == "Ascend":`
			`context.set_context(mode=context.GRAPH_MODE, device_target="Ascend", device_id=args_opt.device_id)`
			`elif target == "GPU":`
			`context.set_context(mode=context.GRAPH_MODE, device_target="GPU")`
			`if bert_net_cfg.compute_type != mstype.float32:`
			`logger.warning('GPU only support fp32 temporarily, run with fp32.')`
			`bert_net_cfg.compute_type = mstype.float32`
			`else:`
			`raise Exception("Target error, GPU or Ascend is supported.")`

			`netwithloss = BertCLS(bert_net_cfg, True, num_labels=args_opt.num_class, dropout_prob=0.1,`
			`assessment_method=assessment_method)`

			`if args_opt.do_train.lower() == "true":`
add squad 4 years ago			`ds = create_classification_dataset(batch_size=args_opt.train_batch_size, repeat_count=1,`
adjust finetune and eval script 5 years ago			`assessment_method=assessment_method,`
			`data_file_path=args_opt.train_data_file_path,`
add switch for data shuffle 5 years ago			`schema_file_path=args_opt.schema_file_path,`
			`do_shuffle=(args_opt.train_data_shuffle.lower() == "true"))`
inject epoch ctrl op in the execution tree and send eos at the end of epoch 5 years ago			`do_train(ds, netwithloss, load_pretrain_checkpoint_path, save_finetune_checkpoint_path, epoch_num)`
adjust finetune and eval script 5 years ago
			`if args_opt.do_eval.lower() == "true":`
			`if save_finetune_checkpoint_path == "":`
			`load_finetune_checkpoint_dir = _cur_dir`
			`else:`
			`load_finetune_checkpoint_dir = make_directory(save_finetune_checkpoint_path)`
			`load_finetune_checkpoint_path = LoadNewestCkpt(load_finetune_checkpoint_dir,`
			`ds.get_dataset_size(), epoch_num, "classifier")`

			`if args_opt.do_eval.lower() == "true":`
add squad 4 years ago			`ds = create_classification_dataset(batch_size=args_opt.eval_batch_size, repeat_count=1,`
adjust finetune and eval script 5 years ago			`assessment_method=assessment_method,`
			`data_file_path=args_opt.eval_data_file_path,`
add switch for data shuffle 5 years ago			`schema_file_path=args_opt.schema_file_path,`
			`do_shuffle=(args_opt.eval_data_shuffle.lower() == "true"))`
adjust finetune and eval script 5 years ago			`do_eval(ds, BertCLS, args_opt.num_class, assessment_method, load_finetune_checkpoint_path)`

			`if __name__ == "__main__":`
			`run_classifier()`