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metrics.py
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metrics.py
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# Adapted from score written by wkentaro
# https://github.com/wkentaro/pytorch-fcn/blob/master/torchfcn/utils.py
import numpy as np
class runningScore(object):
def __init__(self, n_classes):
self.n_classes = n_classes
self.confusion_matrix = np.zeros((n_classes, n_classes))
def _fast_hist(self, label_true, label_pred, n_class):
mask = (label_true >= 0) & (label_true < n_class)
hist = np.bincount(
n_class * label_true[mask].astype(int) + label_pred[mask], minlength=n_class ** 2
).reshape(n_class, n_class)
return hist
def update(self, label_trues, label_preds):
for lt, lp in zip(label_trues, label_preds):
self.confusion_matrix += self._fast_hist(lt.flatten(), lp.flatten(), self.n_classes)
def get_scores(self):
"""Returns accuracy score evaluation result.
- overall accuracy
- mean accuracy
- mean IU
- fwavacc
"""
hist = self.confusion_matrix
acc = np.diag(hist).sum() / hist.sum()
acc_cls = np.diag(hist) / hist.sum(axis=1)
acc_cls = np.nanmean(acc_cls)
iu = np.diag(hist) / (hist.sum(axis=1) + hist.sum(axis=0) - np.diag(hist))
mean_iu = np.nanmean(iu)
freq = hist.sum(axis=1) / hist.sum()
fwavacc = (freq[freq > 0] * iu[freq > 0]).sum()
cls_iu = dict(zip(range(self.n_classes), iu))
return (
{
"Overall Acc: \t": acc,
"Mean Acc : \t": acc_cls,
"FreqW Acc : \t": fwavacc,
"Mean IoU : \t": mean_iu,
},
cls_iu
)
def reset(self):
self.confusion_matrix = np.zeros((self.n_classes, self.n_classes))
class runningScore_cls(object):
def __init__(self, n_classes):
self.n_classes = n_classes
self.confusion_matrix = np.zeros((n_classes, n_classes))
def _fast_hist(self, label_true, label_pred, n_class):
mask = (label_true >= 0) & (label_true < n_class)
hist = np.bincount(
n_class * label_true[mask].astype(int) + label_pred[mask], minlength=n_class ** 2
).reshape(n_class, n_class)
return hist
def update(self, label_trues, label_preds):
for lt, lp in zip(label_trues, label_preds):
self.confusion_matrix += self._fast_hist(lt.flatten(), lp.flatten(), self.n_classes)
def get_scores(self):
"""Returns accuracy score evaluation result.
- overall accuracy
- mean accuracy
- mean IU
- fwavacc
"""
hist = self.confusion_matrix
acc = np.diag(hist).sum() / hist.sum()
acc_cls = np.diag(hist) / hist.sum(axis=1)
acc_cls = np.nanmean(acc_cls)
return {"Overall Acc : \t": acc,
"Mean Acc : \t": acc_cls,}
def reset(self):
self.confusion_matrix = np.zeros((self.n_classes, self.n_classes))
class averageMeter(object):
"""Computes and stores the average and current value"""
def __init__(self):
self.reset()
def reset(self):
self.val = 0
self.avg = 0
self.sum = 0
self.count = 0
def update(self, val, n=1):
self.val = val
self.sum += val * n
self.count += n
self.avg = self.sum / self.count