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- # encoding: utf-8
- import os
- import random
- import torch
- import torch.nn as nn
- import torch.distributed as dist
-
- from yolox.exp import Exp as MyExp
- from yolox.data import get_yolox_datadir
-
- class Exp(MyExp):
- def __init__(self):
- super(Exp, self).__init__()
- self.num_classes = 1
- self.depth = 1.33
- self.width = 1.25
- self.exp_name = os.path.split(os.path.realpath(__file__))[1].split(".")[0]
- self.train_ann = "train.json"
- self.val_ann = "test.json" # change to train.json when running on training set
- self.input_size = (800, 1440)
- self.test_size = (800, 1440)
- self.random_size = (18, 32)
- self.max_epoch = 80
- self.print_interval = 20
- self.eval_interval = 5
- self.test_conf = 0.001
- self.nmsthre = 0.7
- self.no_aug_epochs = 10
- self.basic_lr_per_img = 0.001 / 64.0
- self.warmup_epochs = 1
-
- def get_data_loader(self, batch_size, is_distributed, no_aug=False):
- from yolox.data import (
- MOTDataset,
- TrainTransform,
- YoloBatchSampler,
- DataLoader,
- InfiniteSampler,
- MosaicDetection,
- )
-
- dataset = MOTDataset(
- data_dir=os.path.join(get_yolox_datadir(), "mix_det"),
- json_file=self.train_ann,
- name='',
- img_size=self.input_size,
- preproc=TrainTransform(
- rgb_means=(0.485, 0.456, 0.406),
- std=(0.229, 0.224, 0.225),
- max_labels=500,
- ),
- )
-
- dataset = MosaicDetection(
- dataset,
- mosaic=not no_aug,
- img_size=self.input_size,
- preproc=TrainTransform(
- rgb_means=(0.485, 0.456, 0.406),
- std=(0.229, 0.224, 0.225),
- max_labels=1000,
- ),
- degrees=self.degrees,
- translate=self.translate,
- scale=self.scale,
- shear=self.shear,
- perspective=self.perspective,
- enable_mixup=self.enable_mixup,
- )
-
- self.dataset = dataset
-
- if is_distributed:
- batch_size = batch_size // dist.get_world_size()
-
- sampler = InfiniteSampler(
- len(self.dataset), seed=self.seed if self.seed else 0
- )
-
- batch_sampler = YoloBatchSampler(
- sampler=sampler,
- batch_size=batch_size,
- drop_last=False,
- input_dimension=self.input_size,
- mosaic=not no_aug,
- )
-
- dataloader_kwargs = {"num_workers": self.data_num_workers, "pin_memory": True}
- dataloader_kwargs["batch_sampler"] = batch_sampler
- train_loader = DataLoader(self.dataset, **dataloader_kwargs)
-
- return train_loader
-
- def get_eval_loader(self, batch_size, is_distributed, testdev=False):
- from yolox.data import MOTDataset, ValTransform
-
- valdataset = MOTDataset(
- data_dir=os.path.join(get_yolox_datadir(), "mot"),
- json_file=self.val_ann,
- img_size=self.test_size,
- name='test', # change to train when running on training set
- preproc=ValTransform(
- rgb_means=(0.485, 0.456, 0.406),
- std=(0.229, 0.224, 0.225),
- ),
- )
-
- if is_distributed:
- batch_size = batch_size // dist.get_world_size()
- sampler = torch.utils.data.distributed.DistributedSampler(
- valdataset, shuffle=False
- )
- else:
- sampler = torch.utils.data.SequentialSampler(valdataset)
-
- dataloader_kwargs = {
- "num_workers": self.data_num_workers,
- "pin_memory": True,
- "sampler": sampler,
- }
- dataloader_kwargs["batch_size"] = batch_size
- val_loader = torch.utils.data.DataLoader(valdataset, **dataloader_kwargs)
-
- return val_loader
-
- def get_evaluator(self, batch_size, is_distributed, testdev=False):
- from yolox.evaluators import COCOEvaluator
-
- val_loader = self.get_eval_loader(batch_size, is_distributed, testdev=testdev)
- evaluator = COCOEvaluator(
- dataloader=val_loader,
- img_size=self.test_size,
- confthre=self.test_conf,
- nmsthre=self.nmsthre,
- num_classes=self.num_classes,
- testdev=testdev,
- )
- return evaluator
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