I've been trying to experiment with Region Based: Dice Loss but there have been a lot of variations on the internet to a varying degree that I could not find two identical implementations. The problem is that all of these produce varying results. Below are the implementations that I found. Some uses `smoothing`

factor which the authors in this paper have called `epsilon`

, some use it in both numerator and denominator, one implementation used `Gamma`

etc etc.

Could someone please help me with the correct implementation.

```
import tensorflow as tf
import tensorflow.keras.backend as K
import numpy as np
def dice_loss1(y_true, y_pred, smooth=1e-6):
'''
https://www.kaggle.com/code/bigironsphere/loss-function-library-keras-pytorch/notebook
'''
y_pred = tf.convert_to_tensor(y_pred)
y_true = tf.cast(y_true, y_pred.dtype)
smooth = tf.cast(smooth, y_pred.dtype)
y_pred = K.flatten(y_pred)
y_true = K.flatten(y_true)
intersection = K.sum(K.dot(y_true, y_pred))
dice_coef = (2*intersection + smooth) / (K.sum(y_true) + K.sum(y_pred) + smooth)
dice_loss = 1-dice_coef
return dice_loss
def dice_loss2(y_true, y_pred, smooth=1e-6): # Only Smooth
"""
https://gist.github.com/wassname/7793e2058c5c9dacb5212c0ac0b18a8a
"""
y_pred = tf.convert_to_tensor(y_pred)
y_true = tf.cast(y_true, y_pred.dtype)
smooth = tf.cast(smooth, y_pred.dtype)
intersection = K.sum(K.abs(y_true * y_pred), axis=-1)
dice_coef = (2. * intersection + smooth) / (K.sum(K.square(y_true),-1) + K.sum(K.square(y_pred),-1) + smooth)
return 1- dice_coef
def dice_loss3(y_true, y_pred): # No gamma, no smooth
'''
https://lars76.github.io/2018/09/27/loss-functions-for-segmentation.html
'''
y_pred = tf.convert_to_tensor(y_pred)
y_true = tf.cast(y_true, y_pred.dtype)
y_pred = tf.math.sigmoid(y_pred)
numerator = 2 * tf.reduce_sum(y_true * y_pred)
denominator = tf.reduce_sum(y_true + y_pred)
return 1 - numerator / denominator
def dice_loss4(y_true, y_pred, smooth=1e-6, gama=1): # Gama + Smooth is used
'''
https://dev.to/_aadidev/3-common-loss-functions-for-image-segmentation-545o
'''
y_pred = tf.convert_to_tensor(y_pred)
y_true = tf.cast(y_true, y_pred.dtype)
smooth = tf.cast(smooth, y_pred.dtype)
gama = tf.cast(gama, y_pred.dtype)
nominator = 2 * tf.reduce_sum(tf.multiply(y_pred, y_true)) + smooth
denominator = tf.reduce_sum(y_pred ** gama) + tf.reduce_sum(y_true ** gama) + smooth
result = 1 - tf.divide(nominator, denominator)
return result
y_true = np.array([[0,0,1,0],
[0,0,1,0],
[0,0,1.,0.]])
y_pred = np.array([[0,0,0.9,0],
[0,0,0.1,0],
[1,1,0.1,1.]])
# print(dice_loss1(y_true, y_pred)) # Gives you error in K.dot()
print(dice_loss2(y_true, y_pred))
print(dice_loss3(y_true, y_pred)) # provides array of values
print(dice_loss4(y_true, y_pred))
```