Tutorial 2: Adding New Dataset¶
Customize datasets by reorganizing data¶
Reorganize dataset to existing format¶
The simplest way is to convert your dataset to existing dataset formats (COCO or PASCAL VOC).
The annotation json files in COCO format has the following necessary keys:
'images': [
{
'file_name': 'COCO_val2014_000000001268.jpg',
'height': 427,
'width': 640,
'id': 1268
},
...
],
'annotations': [
{
'segmentation': [[192.81,
247.09,
...
219.03,
249.06]], # if you have mask labels
'area': 1035.749,
'iscrowd': 0,
'image_id': 1268,
'bbox': [192.81, 224.8, 74.73, 33.43],
'category_id': 16,
'id': 42986
},
...
],
'categories': [
{'id': 0, 'name': 'car'},
]
There are three necessary keys in the json file:
images: contains a list of images with theire informations likefile_name,height,width, andid.annotations: contains the list of instance annotations.categories: contains the list of categories names and their ID.
After the data pre-processing, the users need to further modify the config files to use the dataset. Here we show an example of using a custom dataset of 5 classes, assuming it is also in COCO format.
In configs/my_custom_config.py:
...
# dataset settings
dataset_type = 'CocoDataset'
classes = ('a', 'b', 'c', 'd', 'e')
...
data = dict(
samples_per_gpu=2,
workers_per_gpu=2,
train=dict(
type=dataset_type,
classes=classes,
ann_file='path/to/your/train/data',
...),
val=dict(
type=dataset_type,
classes=classes,
ann_file='path/to/your/val/data',
...),
test=dict(
type=dataset_type,
classes=classes,
ann_file='path/to/your/test/data',
...))
...
We use this way to support CityScapes dataset. The script is in cityscapes.py and we also provide the finetuning configs.
Reorganize dataset to middle format¶
It is also fine if you do not want to convert the annotation format to COCO or PASCAL format. Actually, we define a simple annotation format and all existing datasets are processed to be compatible with it, either online or offline.
The annotation of a dataset is a list of dict, each dict corresponds to an image.
There are 3 field filename (relative path), width, height for testing,
and an additional field ann for training. ann is also a dict containing at least 2 fields:
bboxes and labels, both of which are numpy arrays. Some datasets may provide
annotations like crowd/difficult/ignored bboxes, we use bboxes_ignore and labels_ignore
to cover them.
Here is an example.
[
{
'filename': 'a.jpg',
'width': 1280,
'height': 720,
'ann': {
'bboxes': <np.ndarray, float32> (n, 4),
'labels': <np.ndarray, int64> (n, ),
'bboxes_ignore': <np.ndarray, float32> (k, 4),
'labels_ignore': <np.ndarray, int64> (k, ) (optional field)
}
},
...
]
There are two ways to work with custom datasets.
online conversion
You can write a new Dataset class inherited from
CustomDataset, and overwrite two methodsload_annotations(self, ann_file)andget_ann_info(self, idx), like CocoDataset and VOCDataset.offline conversion
You can convert the annotation format to the expected format above and save it to a pickle or json file, like pascal_voc.py. Then you can simply use
CustomDataset.
An example of customized dataset¶
Assume the annotation is in a new format in text files.
The bounding boxes annotations are stored in text file annotation.txt as the following
#
000001.jpg
1280 720
2
10 20 40 60 1
20 40 50 60 2
#
000002.jpg
1280 720
3
50 20 40 60 2
20 40 30 45 2
30 40 50 60 3
We can create a new dataset in mmdet/datasets/my_dataset.py to load the data.
import mmcv
import numpy as np
from .builder import DATASETS
from .custom import CustomDataset
@DATASETS.register_module()
class MyDataset(CustomDataset):
CLASSES = ('person', 'bicycle', 'car', 'motorcycle')
def load_annotations(self, ann_file):
ann_list = mmcv.list_from_file(ann_file)
data_infos = []
for i, ann_line in enumerate(ann_list):
if ann_line != '#':
continue
img_shape = ann_list[i + 2].split(' ')
width = int(img_shape[0])
height = int(img_shape[1])
bbox_number = int(ann_list[i + 3])
anns = ann_line.split(' ')
bboxes = []
labels = []
for anns in ann_list[i + 4:i + 4 + bbox_number]:
bboxes.append([float(ann) for ann in anns[:4]])
labels.append(int(anns[4]))
data_infos.append(
dict(
filename=ann_list[i + 1],
width=width,
height=height,
ann=dict(
bboxes=np.array(bboxes).astype(np.float32),
labels=np.array(labels).astype(np.int64))
))
return data_infos
def get_ann_info(self, idx):
return self.data_infos[idx]['ann']
Then in the config, to use MyDataset you can modify the config as the following
dataset_A_train = dict(
type='MyDataset',
ann_file = 'image_list.txt',
pipeline=train_pipeline
)
Customize datasets by mixing dataset¶
MMDetection also supports to mix dataset for training. Currently it supports to concat and repeat datasets.
Repeat dataset¶
We use RepeatDataset as warpper to repeat the dataset. For example, suppose the original dataset is Dataset_A, to repeat it, the config looks like the following
dataset_A_train = dict(
type='RepeatDataset',
times=N,
dataset=dict( # This is the original config of Dataset_A
type='Dataset_A',
...
pipeline=train_pipeline
)
)
Concatemate dataset¶
There two ways to concatenate the dataset.
If the datasets you want to concatenate are in the same type with different annotation files, you can concatenate the dataset configs like the following.
dataset_A_train = dict( type='Dataset_A', ann_file = ['anno_file_1', 'anno_file_2'], pipeline=train_pipeline )
In case the dataset you want to concatenate is different, you can concatenate the dataset configs like the following.
dataset_A_train = dict() dataset_B_train = dict() data = dict( imgs_per_gpu=2, workers_per_gpu=2, train = [ dataset_A_train, dataset_B_train ], val = dataset_A_val, test = dataset_A_test )
A more complex example that repeats Dataset_A and Dataset_B by N and M times, respectively, and then concatenates the repeated datasets is as the following.
dataset_A_train = dict(
type='RepeatDataset',
times=N,
dataset=dict(
type='Dataset_A',
...
pipeline=train_pipeline
)
)
dataset_A_val = dict(
...
pipeline=test_pipeline
)
dataset_A_test = dict(
...
pipeline=test_pipeline
)
dataset_B_train = dict(
type='RepeatDataset',
times=M,
dataset=dict(
type='Dataset_B',
...
pipeline=train_pipeline
)
)
data = dict(
imgs_per_gpu=2,
workers_per_gpu=2,
train = [
dataset_A_train,
dataset_B_train
],
val = dataset_A_val,
test = dataset_A_test
)
Modify classes of existing dataset¶
With existing dataset types, we can modify the class names of them to train subset of the dataset.
For example, if you want to train only three classes of the current dataset,
you can modify the classes of dataset.
The dataset will subtract subset of the data which contains at least one class in the classes.
classes = ('person', 'bicycle', 'car')
data = dict(
train=dict(classes=classes),
val=dict(classes=classes),
test=dict(classes=classes))
MMDetection V2.0 also supports to read the classes from a file, which is common in real applications.
For example, assume the classes.txt contains the name of classes as the following.
person
bicycle
car
Users can set the classes as a file path, the dataset will load it and convert it to a list automatically.
classes = 'path/to/classes.txt'
data = dict(
train=dict(classes=classes),
val=dict(classes=classes),
test=dict(classes=classes))