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PyTorch-YOLOv3/train.py

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from __future__ import division
from models import *
from utils.logger import *
from utils.utils import *
from utils.datasets import *
from utils.parse_config import *
from test import evaluate
import warnings
warnings.filterwarnings("ignore")
from terminaltables import AsciiTable
import os
import sys
import time
import datetime
import argparse
import torch
from torch.utils.data import DataLoader
from torchvision import datasets
from torchvision import transforms
from torch.autograd import Variable
import torch.optim as optim
"""
--data_config config/coco.data
--pretrained_weights weights/darknet53.conv.74
"""
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument("--epochs", type=int, default=100, help="number of epochs")
parser.add_argument("--batch_size", type=int, default=4, help="size of each image batch")
parser.add_argument("--gradient_accumulations", type=int, default=2, help="number of gradient accums before step")
parser.add_argument("--model_def", type=str, default="config/yolov3.cfg", help="path to model definition file")
parser.add_argument("--data_config", type=str, default="config/coco.data", help="path to data config file")
parser.add_argument("--pretrained_weights", type=str, help="if specified starts from checkpoint model")
parser.add_argument("--n_cpu", type=int, default=0, help="number of cpu threads to use during batch generation")
parser.add_argument("--img_size", type=int, default=416, help="size of each image dimension")
parser.add_argument("--checkpoint_interval", type=int, default=1, help="interval between saving model weights")
parser.add_argument("--evaluation_interval", type=int, default=1, help="interval evaluations on validation set")
parser.add_argument("--compute_map", default=False, help="if True computes mAP every tenth batch")
parser.add_argument("--multiscale_training", default=True, help="allow for multi-scale training")
opt = parser.parse_args()
print(opt)
logger = Logger("logs")
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
os.makedirs("output", exist_ok=True)
os.makedirs("checkpoints", exist_ok=True)
# Get data configuration
data_config = parse_data_config(opt.data_config)
train_path = data_config["train"]
valid_path = data_config["valid"]
class_names = load_classes(data_config["names"])
# Initiate model 网络模型,模块以及连接顺序
model = Darknet(opt.model_def).to(device)
model.apply(weights_init_normal)
# If specified we start from checkpoint
if opt.pretrained_weights:
if opt.pretrained_weights.endswith(".pth"):
model.load_state_dict(torch.load(opt.pretrained_weights))
else:
model.load_darknet_weights(opt.pretrained_weights)
# Get dataloader
dataset = ListDataset(train_path, augment=True, multiscale=opt.multiscale_training)
dataloader = torch.utils.data.DataLoader(
dataset,
batch_size=opt.batch_size,
shuffle=True,
num_workers=opt.n_cpu,
pin_memory=True,
collate_fn=dataset.collate_fn,
)
optimizer = torch.optim.Adam(model.parameters())
metrics = [
"grid_size",
"loss",
"x",
"y",
"w",
"h",
"conf",
"cls",
"cls_acc",
"recall50",
"recall75",
"precision",
"conf_obj",
"conf_noobj",
]
# 开始训练
for epoch in range(opt.epochs):
model.train()
start_time = time.time()
for batch_i, (_, imgs, targets) in enumerate(dataloader):
batches_done = len(dataloader) * epoch + batch_i
imgs = Variable(imgs.to(device))
targets = Variable(targets.to(device), requires_grad=False)
print ('imgs',imgs.shape)
print ('targets',targets.shape)
loss, outputs = model(imgs, targets)
loss.backward()
if batches_done % opt.gradient_accumulations:
# Accumulates gradient before each step
optimizer.step()
optimizer.zero_grad()
# ----------------
# Log progress
# ----------------
log_str = "\n---- [Epoch %d/%d, Batch %d/%d] ----\n" % (epoch, opt.epochs, batch_i, len(dataloader))
metric_table = [["Metrics", *[f"YOLO Layer {i}" for i in range(len(model.yolo_layers))]]]
# Log metrics at each YOLO layer
for i, metric in enumerate(metrics):
formats = {m: "%.6f" for m in metrics}
formats["grid_size"] = "%2d"
formats["cls_acc"] = "%.2f%%"
row_metrics = [formats[metric] % yolo.metrics.get(metric, 0) for yolo in model.yolo_layers]
metric_table += [[metric, *row_metrics]]
# Tensorboard logging
tensorboard_log = []
for j, yolo in enumerate(model.yolo_layers):
for name, metric in yolo.metrics.items():
if name != "grid_size":
tensorboard_log += [(f"{name}_{j+1}", metric)]
tensorboard_log += [("loss", loss.item())]
logger.list_of_scalars_summary(tensorboard_log, batches_done)
log_str += AsciiTable(metric_table).table
log_str += f"\nTotal loss {loss.item()}"
# Determine approximate time left for epoch
epoch_batches_left = len(dataloader) - (batch_i + 1)
time_left = datetime.timedelta(seconds=epoch_batches_left * (time.time() - start_time) / (batch_i + 1))
log_str += f"\n---- ETA {time_left}"
print(log_str)
model.seen += imgs.size(0)
if epoch % opt.evaluation_interval == 0:
print("\n---- Evaluating Model ----")
# Evaluate the model on the validation set
precision, recall, AP, f1, ap_class = evaluate(
model,
path=valid_path,
iou_thres=0.5,
conf_thres=0.5,
nms_thres=0.5,
img_size=opt.img_size,
batch_size=8,
)
evaluation_metrics = [
("val_precision", precision.mean()),
("val_recall", recall.mean()),
("val_mAP", AP.mean()),
("val_f1", f1.mean()),
]
logger.list_of_scalars_summary(evaluation_metrics, epoch)
# Print class APs and mAP
ap_table = [["Index", "Class name", "AP"]]
for i, c in enumerate(ap_class):
ap_table += [[c, class_names[c], "%.5f" % AP[i]]]
print(AsciiTable(ap_table).table)
print(f"---- mAP {AP.mean()}")
if epoch % opt.checkpoint_interval == 0:
torch.save(model.state_dict(), f"checkpoints/yolov3_ckpt_%d.pth" % epoch)
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