Light weight toolkit for bounding boxes providing conversion between bounding box types and simple computations. Supported bounding box types (italicized text indicates normalized values):
- albumentations : Albumentations Format
- [x-tl, y-tl, x-br, y-br] (Normalized VOC Format) Top-left coordinates & Bottom-right coordinates
- coco : COCO (Common Objects in Context)
- [x-tl, y-tl, w, h] Top-left corner & width & height
- fiftyone : FiftyOne
- [x-tl, y-tl, w, h] (Normalized COCO Format) Top-left coordinates & width & height
- voc : Pascal VOC
- [x-tl, y-tl, x-br, y-br] Top-left coordinates & Bottom-right coordinates
- yolo : YOLO
- [x-c, y-c, w, h] Center coordinates & width & height
Glossary
- tl: top-left
- br: bottom-right
- h: height
- w: width
- c: center
Support for Python<3.8 will be dropped starting version 0.2
though the development for Python3.6 and Python3.7 may
continue where it will be developed under version 0.1.x
for future versions. This may introduce; however, certain
discrepancies and/or unsupported operations in the 0.1.x
versions. To fully utilize and benefit from the entire
package, we recommend using Python3.8 at minimum (Python>=3.8
).
Through pip (recommended),
pip install pybboxes
or build from source,
git clone https://github.com/devrimcavusoglu/pybboxes.git
cd pybboxes
python setup.py install
You can easily create bounding box as easy as
from pybboxes import BoundingBox
my_coco_box = [98, 345, 322, 117]
coco_bbox = BoundingBox.from_coco(*my_coco_box) # <[98 345 322 117] (322x117) | Image: (?x?)>
# or alternatively
# coco_bbox = BoundingBox.from_array(my_coco_box)
Pybboxes supports OOB boxes, there exists a keyword strict
in both Box classes (construction) and in functional
modules. When strict=True
, it does not allow out-of-bounds boxes to be constructed and raises an exception, while
it does allow out-of-bounds boxes to be constructed and used when strict=False
. Also, there is a property is_oob
that indicates whether a particular bouding box is OOB or not.
Important Note that, if the return value for is_oob
is None
, then it indicates that OOB status is unknown
(e.g. image size required to determine, but not given). Thus, values None
and False
indicates different information.
from pybboxes import BoundingBox
image_size = (640, 480)
my_coco_box = [98, 345, 580, 245] # OOB box for 640x480
coco_bbox = BoundingBox.from_coco(*my_coco_box, image_size=image_size) # Exception
# ValueError: Given bounding box values is out of bounds. To silently skip out of bounds cases pass 'strict=False'.
coco_bbox = BoundingBox.from_coco(*my_coco_box, image_size=image_size, strict=False) # No Exception
coco_bbox.is_oob # True
If you want to allow OOB, but still check OOB status, you should use strict=False
and is_oob
where needed.
With the BoundingBox
class the conversion is as easy as one method call.
from pybboxes import BoundingBox
my_coco_box = [98, 345, 322, 117]
coco_bbox = BoundingBox.from_coco(*my_coco_box) # <[98 345 322 117] (322x117) | Image: (?x?)>
voc_bbox = coco_bbox.to_voc() # <[98 345 420 462] (322x117) | Image: (?x?)>
voc_bbox_values = coco_bbox.to_voc(return_values=True) # (98, 345, 420, 462)
However, if you try to make conversion between two bounding boxes that require scaling/normalization it'll give an error
from pybboxes import BoundingBox
my_coco_box = [98, 345, 322, 117]
coco_bbox = BoundingBox.from_coco(*my_coco_box) # <[98 345 322 117] (322x117) | Image: (?x?)>
# yolo_bbox = coco_bbox.to_yolo() # this will raise an exception
# You need to set image_size for coco_bbox and then you're good to go
coco_bbox.image_size = (640, 480)
yolo_bbox = coco_bbox.to_yolo() # <[0.4047 0.8406 0.5031 0.2437] (322x117) | Image: (640x480)>
Image size associated with the bounding box can be given at the instantiation or while using classmethods e.g
from_coco()
.
from pybboxes import BoundingBox
my_coco_box = [98, 345, 322, 117]
coco_bbox = BoundingBox.from_coco(*my_coco_box, image_size=(640, 480)) # <[98 345 322 117] (322x117) | Image: (640x480)>
# no longer raises exception
yolo_bbox = coco_bbox.to_yolo() # <[0.4047 0.8406 0.5031 0.2437] (322x117) | Image: (640x480)>
Box operations now available as of v0.1.0
.
from pybboxes import BoundingBox
my_coco_box = [98, 345, 322, 117]
my_coco_box2 = [90, 350, 310, 122]
coco_bbox = BoundingBox.from_coco(*my_coco_box, image_size=(640, 480))
coco_bbox2 = BoundingBox.from_coco(*my_coco_box2, image_size=(640, 480))
iou = coco_bbox.iou(coco_bbox2) # 0.8117110631149508
area_union = coco_bbox + coco_bbox2 # 41670 | alternative way: coco_bbox.union(coco_bbox2)
total_area = coco_bbox.area + coco_bbox2.area # 75494 (not union)
intersection_area = coco_bbox * coco_bbox2 # 33824 | alternative way: coco_bbox.intersection(coco_bbox2)
first_bbox_diff = coco_bbox - coco_bbox2 # 3850
second_bbox_diff = coco_bbox2 - coco_bbox # 3996
bbox_ratio = coco_bbox / coco_bbox2 # 0.9961396086726599 (not IOU)
Note: functional computations are moved under pybboxes.functional
starting with the version 0.1.0
. The only
exception is that convert_bbox()
which still can be used by importing pybboxes
only (for backward compatibility).
You are able to convert from any bounding box type to another.
import pybboxes as pbx
coco_bbox = (1,2,3,4) # COCO Format bbox as (x-tl,y-tl,w,h)
voc_bbox = (1,2,3,4) # Pascal VOC Format bbox as (x-tl,y-tl,x-br,y-br)
pbx.convert_bbox(coco_bbox, from_type="coco", to_type="voc") # (1, 2, 4, 6)
pbx.convert_bbox(voc_bbox, from_type="voc", to_type="coco") # (1, 2, 2, 2)
Some formats require image width and height information for scaling, e.g. YOLO bbox (resulting coordinates are rounded to 2 decimals to ease reading).
import pybboxes as pbx
voc_bbox = (1,2,3,4) # Pascal VOC Format bbox as (x-tl,y-tl,x-br,y-br)
pbx.convert_bbox(voc_bbox, from_type="voc", to_type="yolo", image_size=(28, 28)) # (0.07, 0.11, 0.07, 0.07)
You can also make computations on supported bounding box formats.
import pybboxes.functional as pbf
coco_bbox = (1,2,3,4) # COCO Format bbox as (x-tl,y-tl,w,h)
voc_bbox = (1,2,3,4) # Pascal VOC Format bbox as (x-tl,y-tl,x-br,y-br)
pbf.compute_area(coco_bbox, bbox_type="coco") # 12
pbf.compute_area(voc_bbox, bbox_type="voc") # 4
Install the package as follows, which will set you ready for the development mode.
pip install -e .[dev]
To tests simply run.
python tests/run_tests.py
To check code style,
python tests/run_code_style.py check
To format codebase,
python tests/run_code_style.py format
Licensed under the MIT License.