surveilling-surveillance/detection/eval/evaluator.py

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2021-05-20 22:20:48 +02:00
import numpy as np
from . import detection
class DatasetEvaluator:
"""
Base class for a dataset evaluator.
This class will accumulate information of the inputs/outputs (by :meth:`process`),
and produce evaluation results in the end (by :meth:`evaluate`).
"""
def reset(self):
"""
Preparation for a new round of evaluation.
Should be called before starting a round of evaluation.
"""
raise NotImplementedError ("[reset] method need to be implemented in child class.")
def process(self, inputs, outputs):
"""
Process the pair of inputs and outputs.
If they contain batches, the pairs can be consumed one-by-one using `zip`:
Args:
inputs (list): the inputs that's used to call the model.
outputs (list): the return value of `model(inputs)`
"""
raise NotImplementedError ("[process] method need to be implemented in child class.")
def evaluate(self):
"""
Evaluate/summarize the performance, after processing all input/output pairs.
"""
raise NotImplementedError ("[evaluate] method need to be implemented in child class.")
class DetectionEvaluator(DatasetEvaluator):
"""
Evaluator for detection task.
This class will accumulate information of the inputs/outputs (by :meth:`process`),
and produce evaluation results in the end (by :meth:`evaluate`).
"""
def __init__(self, iou_thresh=0.5):
self._evaluator = detection.Evaluator()
self._iou_thresh = iou_thresh
self.reset()
def reset(self):
self._bbox = detection.BoundingBoxes()
def process(self, groudtruths, predictions):
"""
Inputs format:
https://detectron2.readthedocs.io/en/latest/tutorials/models.html?highlight=input%20format#model-input-format
Outputs format:
https://detectron2.readthedocs.io/en/latest/tutorials/models.html?highlight=input%20format#model-output-format
"""
for sample_input, sample_output in zip(groudtruths, predictions):
image_id = sample_input['image_id']
gt_instances = sample_input['instances']
pred_instances = sample_output['instances']
width = sample_input['width']
height = sample_input['height']
for i in range(len(gt_instances)):
instance = gt_instances[i]
class_id = instance.get(
'gt_classes').cpu().detach().numpy().item()
boxes = instance.get('gt_boxes')
for box in boxes:
box_np = box.cpu().detach().numpy()
bb = detection.BoundingBox(
image_id,
class_id,
box_np[0],
box_np[1],
box_np[2],
box_np[3],
detection.CoordinatesType.Absolute,
(width,
height),
detection.BBType.GroundTruth,
format=detection.BBFormat.XYX2Y2)
self._bbox.addBoundingBox(bb)
for i in range(len(pred_instances)):
instance = pred_instances[i]
class_id = instance.get(
'pred_classes').cpu().detach().numpy().item()
scores = instance.get('scores').cpu().detach().numpy().item()
boxes = instance.get('pred_boxes')
for box in boxes:
box_np = box.cpu().detach().numpy()
bb = detection.BoundingBox(
image_id,
class_id,
box_np[0],
box_np[1],
box_np[2],
box_np[3],
detection.CoordinatesType.Absolute,
(width,
height),
detection.BBType.Detected,
scores,
format=detection.BBFormat.XYX2Y2)
self._bbox.addBoundingBox(bb)
def evaluate(self, save_dir):
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results = self._evaluator.GetPascalVOCMetrics(self._bbox, self._iou_thresh)
if isinstance(results, dict):
results = [results]
metrics = {}
APs = []
for result in results:
metrics[f'AP_{result["class"]}'] = result['AP']
APs.append(result['AP'])
metrics['mAP'] = np.nanmean(APs)
self._evaluator.PlotPrecisionRecallCurve(self._bbox, savePath=save_dir, showGraphic=False)
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return metrics
class DatasetEvaluators(DatasetEvaluator):
"""
Wrapper class to combine multiple :class:`DatasetEvaluator` instances.
This class dispatches every evaluation call to
all of its :class:`DatasetEvaluator`.
"""
def __init__(self, evaluators):
"""
Args:
evaluators (list): the evaluators to combine.
"""
super().__init__()
self._evaluators = evaluators
def reset(self):
for evaluator in self._evaluators:
evaluator.reset()
def process(self, inputs, outputs):
for evaluator in self._evaluators:
evaluator.process(inputs, outputs)
def evaluate(self):
results = OrderedDict()
for evaluator in self._evaluators:
result = evaluator.evaluate()
if is_main_process() and result is not None:
for k, v in result.items():
assert (
k not in results
), "Different evaluators produce results with the same key {}".format(k)
results[k] = v
return results