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- import argparse
- import datetime
- import os
- import sys
- import numpy as np
- from torch.utils.tensorboard import SummaryWriter
- import torch
- import torch.nn as nn
- from torch.optim import SGD, Adam
- from torch.utils.data import DataLoader
- from util.util import enumerateWithEstimate
- from .dsets import LunaDataset
- from util.logconf import logging
- from .model import LunaModel
- log = logging.getLogger(__name__)
- # log.setLevel(logging.WARN)
- log.setLevel(logging.INFO)
- log.setLevel(logging.DEBUG)
- # Used for computeBatchLoss and logMetrics to index into metrics_t/metrics_a
- METRICS_LABEL_NDX=0
- METRICS_PRED_NDX=1
- METRICS_LOSS_NDX=2
- METRICS_SIZE = 3
- class LunaTrainingApp:
- def __init__(self, sys_argv=None):
- if sys_argv is None:
- sys_argv = sys.argv[1:]
- parser = argparse.ArgumentParser()
- parser.add_argument('--num-workers',
- help='Number of worker processes for background data loading',
- default=8,
- type=int,
- )
- parser.add_argument('--batch-size',
- help='Batch size to use for training',
- default=32,
- type=int,
- )
- parser.add_argument('--epochs',
- help='Number of epochs to train for',
- default=1,
- type=int,
- )
- parser.add_argument('--tb-prefix',
- default='p2ch11',
- help="Data prefix to use for Tensorboard run. Defaults to chapter.",
- )
- parser.add_argument('comment',
- help="Comment suffix for Tensorboard run.",
- nargs='?',
- default='dwlpt',
- )
- self.cli_args = parser.parse_args(sys_argv)
- self.time_str = datetime.datetime.now().strftime('%Y-%m-%d_%H.%M.%S')
- self.trn_writer = None
- self.val_writer = None
- self.totalTrainingSamples_count = 0
- self.use_cuda = torch.cuda.is_available()
- self.device = torch.device("cuda" if self.use_cuda else "cpu")
- self.model = self.initModel()
- self.optimizer = self.initOptimizer()
- def initModel(self):
- model = LunaModel()
- if self.use_cuda:
- log.info("Using CUDA; {} devices.".format(torch.cuda.device_count()))
- if torch.cuda.device_count() > 1:
- model = nn.DataParallel(model)
- model = model.to(self.device)
- return model
- def initOptimizer(self):
- return SGD(self.model.parameters(), lr=0.001, momentum=0.99)
- # return Adam(self.model.parameters())
- def initTrainDl(self):
- train_ds = LunaDataset(
- val_stride=10,
- isValSet_bool=False,
- )
- batch_size = self.cli_args.batch_size
- if self.use_cuda:
- batch_size *= torch.cuda.device_count()
- train_dl = DataLoader(
- train_ds,
- batch_size=batch_size,
- num_workers=self.cli_args.num_workers,
- pin_memory=self.use_cuda,
- )
- return train_dl
- def initValDl(self):
- val_ds = LunaDataset(
- val_stride=10,
- isValSet_bool=True,
- )
- batch_size = self.cli_args.batch_size
- if self.use_cuda:
- batch_size *= torch.cuda.device_count()
- val_dl = DataLoader(
- val_ds,
- batch_size=batch_size,
- num_workers=self.cli_args.num_workers,
- pin_memory=self.use_cuda,
- )
- return val_dl
- def initTensorboardWriters(self):
- if self.trn_writer is None:
- log_dir = os.path.join('runs', self.cli_args.tb_prefix, self.time_str)
- self.trn_writer = SummaryWriter(
- log_dir=log_dir + '-trn_cls-' + self.cli_args.comment)
- self.val_writer = SummaryWriter(
- log_dir=log_dir + '-val_cls-' + self.cli_args.comment)
- def main(self):
- log.info("Starting {}, {}".format(type(self).__name__, self.cli_args))
- train_dl = self.initTrainDl()
- val_dl = self.initValDl()
- for epoch_ndx in range(1, self.cli_args.epochs + 1):
- log.info("Epoch {} of {}, {}/{} batches of size {}*{}".format(
- epoch_ndx,
- self.cli_args.epochs,
- len(train_dl),
- len(val_dl),
- self.cli_args.batch_size,
- (torch.cuda.device_count() if self.use_cuda else 1),
- ))
- trnMetrics_t = self.doTraining(epoch_ndx, train_dl)
- self.logMetrics(epoch_ndx, 'trn', trnMetrics_t)
- valMetrics_t = self.doValidation(epoch_ndx, val_dl)
- self.logMetrics(epoch_ndx, 'val', valMetrics_t)
- if hasattr(self, 'trn_writer'):
- self.trn_writer.close()
- self.val_writer.close()
- def doTraining(self, epoch_ndx, train_dl):
- self.model.train()
- trnMetrics_g = torch.zeros(
- METRICS_SIZE,
- len(train_dl.dataset),
- device=self.device,
- )
- batch_iter = enumerateWithEstimate(
- train_dl,
- "E{} Training".format(epoch_ndx),
- start_ndx=train_dl.num_workers,
- )
- for batch_ndx, batch_tup in batch_iter:
- self.optimizer.zero_grad()
- loss_var = self.computeBatchLoss(
- batch_ndx,
- batch_tup,
- train_dl.batch_size,
- trnMetrics_g
- )
- loss_var.backward()
- self.optimizer.step()
- # # This is for adding the model graph to TensorBoard.
- # if epoch_ndx == 1 and batch_ndx == 0:
- # with torch.no_grad():
- # model = LunaModel()
- # self.trn_writer.add_graph(model, batch_tup[0], verbose=True)
- # self.trn_writer.close()
- self.totalTrainingSamples_count += len(train_dl.dataset)
- return trnMetrics_g.to('cpu')
- def doValidation(self, epoch_ndx, val_dl):
- with torch.no_grad():
- self.model.eval()
- valMetrics_g = torch.zeros(
- METRICS_SIZE,
- len(val_dl.dataset),
- device=self.device,
- )
- batch_iter = enumerateWithEstimate(
- val_dl,
- "E{} Validation ".format(epoch_ndx),
- start_ndx=val_dl.num_workers,
- )
- for batch_ndx, batch_tup in batch_iter:
- self.computeBatchLoss(
- batch_ndx, batch_tup, val_dl.batch_size, valMetrics_g)
- return valMetrics_g.to('cpu')
- def computeBatchLoss(self, batch_ndx, batch_tup, batch_size, metrics_g):
- input_t, label_t, _series_list, _center_list = batch_tup
- input_g = input_t.to(self.device, non_blocking=True)
- label_g = label_t.to(self.device, non_blocking=True)
- logits_g, probability_g = self.model(input_g)
- loss_func = nn.CrossEntropyLoss(reduction='none')
- loss_g = loss_func(
- logits_g,
- label_g[:,1],
- )
- start_ndx = batch_ndx * batch_size
- end_ndx = start_ndx + label_t.size(0)
- metrics_g[METRICS_LABEL_NDX, start_ndx:end_ndx] = \
- label_g[:,1].detach()
- metrics_g[METRICS_PRED_NDX, start_ndx:end_ndx] = \
- probability_g[:,1].detach()
- metrics_g[METRICS_LOSS_NDX, start_ndx:end_ndx] = \
- loss_g.detach()
- return loss_g.mean()
- def logMetrics(
- self,
- epoch_ndx,
- mode_str,
- metrics_t,
- classificationThreshold=0.5,
- ):
- self.initTensorboardWriters()
- log.info("E{} {}".format(
- epoch_ndx,
- type(self).__name__,
- ))
- negLabel_mask = metrics_t[METRICS_LABEL_NDX] <= classificationThreshold
- negPred_mask = metrics_t[METRICS_PRED_NDX] <= classificationThreshold
- posLabel_mask = ~negLabel_mask
- posPred_mask = ~negPred_mask
- neg_count = int(negLabel_mask.sum())
- pos_count = int(posLabel_mask.sum())
- neg_correct = int((negLabel_mask & negPred_mask).sum())
- pos_correct = int((posLabel_mask & posPred_mask).sum())
- metrics_dict = {}
- metrics_dict['loss/all'] = \
- metrics_t[METRICS_LOSS_NDX].mean()
- metrics_dict['loss/neg'] = \
- metrics_t[METRICS_LOSS_NDX, negLabel_mask].mean()
- metrics_dict['loss/pos'] = \
- metrics_t[METRICS_LOSS_NDX, posLabel_mask].mean()
- metrics_dict['correct/all'] = (pos_correct + neg_correct) \
- / np.float32(metrics_t.shape[1]) * 100
- metrics_dict['correct/neg'] = neg_correct / np.float32(neg_count) * 100
- metrics_dict['correct/pos'] = pos_correct / np.float32(pos_count) * 100
- log.info(
- ("E{} {:8} {loss/all:.4f} loss, "
- + "{correct/all:-5.1f}% correct, "
- ).format(
- epoch_ndx,
- mode_str,
- **metrics_dict,
- )
- )
- log.info(
- ("E{} {:8} {loss/neg:.4f} loss, "
- + "{correct/neg:-5.1f}% correct ({neg_correct:} of {neg_count:})"
- ).format(
- epoch_ndx,
- mode_str + '_neg',
- neg_correct=neg_correct,
- neg_count=neg_count,
- **metrics_dict,
- )
- )
- log.info(
- ("E{} {:8} {loss/pos:.4f} loss, "
- + "{correct/pos:-5.1f}% correct ({pos_correct:} of {pos_count:})"
- ).format(
- epoch_ndx,
- mode_str + '_pos',
- pos_correct=pos_correct,
- pos_count=pos_count,
- **metrics_dict,
- )
- )
- writer = getattr(self, mode_str + '_writer')
- for key, value in metrics_dict.items():
- writer.add_scalar(key, value, self.totalTrainingSamples_count)
- writer.add_pr_curve(
- 'pr',
- metrics_t[METRICS_LABEL_NDX],
- metrics_t[METRICS_PRED_NDX],
- self.totalTrainingSamples_count,
- )
- bins = [x/50.0 for x in range(51)]
- negHist_mask = negLabel_mask & (metrics_t[METRICS_PRED_NDX] > 0.01)
- posHist_mask = posLabel_mask & (metrics_t[METRICS_PRED_NDX] < 0.99)
- if negHist_mask.any():
- writer.add_histogram(
- 'is_neg',
- metrics_t[METRICS_PRED_NDX, negHist_mask],
- self.totalTrainingSamples_count,
- bins=bins,
- )
- if posHist_mask.any():
- writer.add_histogram(
- 'is_pos',
- metrics_t[METRICS_PRED_NDX, posHist_mask],
- self.totalTrainingSamples_count,
- bins=bins,
- )
- # score = 1 \
- # + metrics_dict['pr/f1_score'] \
- # - metrics_dict['loss/mal'] * 0.01 \
- # - metrics_dict['loss/all'] * 0.0001
- #
- # return score
- # def logModelMetrics(self, model):
- # writer = getattr(self, 'trn_writer')
- #
- # model = getattr(model, 'module', model)
- #
- # for name, param in model.named_parameters():
- # if param.requires_grad:
- # min_data = float(param.data.min())
- # max_data = float(param.data.max())
- # max_extent = max(abs(min_data), abs(max_data))
- #
- # # bins = [x/50*max_extent for x in range(-50, 51)]
- #
- # try:
- # writer.add_histogram(
- # name.rsplit('.', 1)[-1] + '/' + name,
- # param.data.cpu().numpy(),
- # # metrics_a[METRICS_PRED_NDX, negHist_mask],
- # self.totalTrainingSamples_count,
- # # bins=bins,
- # )
- # except Exception as e:
- # log.error([min_data, max_data])
- # raise
- if __name__ == '__main__':
- LunaTrainingApp().main()
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