# 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 argparse import paddle.fluid as fluid from paddle.fluid.dygraph.parallel import ParallelEnv from dygraph.datasets import DATASETS import dygraph.transforms as T #from dygraph.models import MODELS from dygraph.cvlibs import manager from dygraph.utils import get_environ_info from dygraph.utils import logger from dygraph.core import train def parse_args(): parser = argparse.ArgumentParser(description='Model training') # params of model parser.add_argument( '--model_name', dest='model_name', help='Model type for training, which is one of {}'.format( str(list(manager.MODELS.components_dict.keys()))), type=str, default='UNet') # params of dataset parser.add_argument( '--dataset', dest='dataset', help="The dataset you want to train, which is one of {}".format( str(list(DATASETS.keys()))), type=str, default='OpticDiscSeg') parser.add_argument( '--dataset_root', dest='dataset_root', help="dataset root directory", type=str, default=None) # params of training parser.add_argument( "--input_size", dest="input_size", help="The image size for net inputs.", nargs=2, default=[512, 512], type=int) parser.add_argument( '--num_epochs', dest='num_epochs', help='Number epochs for training', type=int, default=100) parser.add_argument( '--batch_size', dest='batch_size', help='Mini batch size of one gpu or cpu', type=int, default=2) parser.add_argument( '--learning_rate', dest='learning_rate', help='Learning rate', type=float, default=0.01) parser.add_argument( '--pretrained_model', dest='pretrained_model', help='The path of pretrained model', type=str, default=None) parser.add_argument( '--resume_model', dest='resume_model', help='The path of resume model', type=str, default=None) parser.add_argument( '--save_interval_epochs', dest='save_interval_epochs', help='The interval epochs for save a model snapshot', type=int, default=5) parser.add_argument( '--save_dir', dest='save_dir', help='The directory for saving the model snapshot', type=str, default='./output') parser.add_argument( '--num_workers', dest='num_workers', help='Num workers for data loader', type=int, default=0) parser.add_argument( '--do_eval', dest='do_eval', help='Eval while training', action='store_true') parser.add_argument( '--log_steps', dest='log_steps', help='Display logging information at every log_steps', default=10, type=int) parser.add_argument( '--use_vdl', dest='use_vdl', help='Whether to record the data to VisualDL during training', action='store_true') return parser.parse_args() def main(args): env_info = get_environ_info() info = ['{}: {}'.format(k, v) for k, v in env_info.items()] info = '\n'.join(['\n', format('Environment Information', '-^48s')] + info + ['-' * 48]) logger.info(info) places = fluid.CUDAPlace(ParallelEnv().dev_id) \ if env_info['Paddle compiled with cuda'] and env_info['GPUs used'] \ else fluid.CPUPlace() if args.dataset not in DATASETS: raise Exception('`--dataset` is invalid. it should be one of {}'.format( str(list(DATASETS.keys())))) dataset = DATASETS[args.dataset] with fluid.dygraph.guard(places): # Creat dataset reader train_transforms = T.Compose([ T.Resize(args.input_size), T.RandomHorizontalFlip(), T.Normalize() ]) train_dataset = dataset( dataset_root=args.dataset_root, transforms=train_transforms, mode='train') eval_dataset = None if args.do_eval: eval_transforms = T.Compose( [T.Resize(args.input_size), T.Normalize()]) eval_dataset = dataset( dataset_root=args.dataset_root, transforms=eval_transforms, mode='val') model = manager.MODELS[args.model_name](num_classes=train_dataset.num_classes) # Creat optimizer # todo, may less one than len(loader) num_steps_each_epoch = len(train_dataset) // ( args.batch_size * ParallelEnv().nranks) decay_step = args.num_epochs * num_steps_each_epoch lr_decay = fluid.layers.polynomial_decay( args.learning_rate, decay_step, end_learning_rate=0, power=0.9) optimizer = fluid.optimizer.Momentum( lr_decay, momentum=0.9, parameter_list=model.parameters(), regularization=fluid.regularizer.L2Decay(regularization_coeff=4e-5)) train( model, train_dataset, places=places, eval_dataset=eval_dataset, optimizer=optimizer, save_dir=args.save_dir, num_epochs=args.num_epochs, batch_size=args.batch_size, pretrained_model=args.pretrained_model, resume_model=args.resume_model, save_interval_epochs=args.save_interval_epochs, log_steps=args.log_steps, num_classes=train_dataset.num_classes, num_workers=args.num_workers, use_vdl=args.use_vdl) if __name__ == '__main__': args = parse_args() main(args)