I'm trying to implement a custom loss function for my CNN model. I found an IPython notebook that has implemented a custom loss function named Dice, just as follows:

```
from keras import backend as K
smooth = 1.
def dice_coef(y_true, y_pred, smooth=1):
intersection = K.sum(y_true * y_pred, axis=[1,2,3])
union = K.sum(y_true, axis=[1,2,3]) + K.sum(y_pred, axis=[1,2,3])
return K.mean( (2. * intersection + smooth) / (union + smooth), axis=0)
def bce_dice(y_true, y_pred):
return binary_crossentropy(y_true, y_pred)-K.log(dice_coef(y_true, y_pred))
def true_positive_rate(y_true, y_pred):
return K.sum(K.flatten(y_true)*K.flatten(K.round(y_pred)))/K.sum(y_true)
seg_model.compile(optimizer = 'adam',
loss = bce_dice,
metrics = ['binary_accuracy', dice_coef, true_positive_rate])
```

I have never used keras backend before and really get confused with the matrix calculations of keras backend. So, I created some tensors to see what's happening in the code:

```
val1 = np.arange(24).reshape((4, 6))
y_true = K.variable(value=val1)
val2 = np.arange(10,34).reshape((4, 6))
y_pred = K.variable(value=val2)
```

Now I run the `dice_coef`

function:

```
result = K.eval(dice_coef(y_true=y_true, y_pred=y_pred))
print('result is:', result)
```

But it gives me this error:

```
ValueError: Invalid reduction dimension 2 for input with 2 dimensions. for 'Sum_32' (op: 'Sum') with input shapes: [4,6], [3] and with computed input tensors: input[1] = <1 2 3>.
```

Then I changed all of `[1,2,3]`

to `-1`

just like below:

```
def dice_coef(y_true, y_pred, smooth=1):
intersection = K.sum(y_true * y_pred, axis=-1)
# intersection = K.sum(y_true * y_pred, axis=[1,2,3])
# union = K.sum(y_true, axis=[1,2,3]) + K.sum(y_pred, axis=[1,2,3])
union = K.sum(y_true, axis=-1) + K.sum(y_pred, axis=-1)
return K.mean( (2. * intersection + smooth) / (union + smooth), axis=0)
```

Now it gives me a value.

```
result is: 14.7911625
```

*Questions:*

- What is
`[1,2,3]`

? - Why the code works when I change
`[1,2,3]`

to`-1`

? - What does this
`dice_coef`

function do?

`[1,2,3]`

means that the sum (seens as an aggregation operation) runs through the second to fourth axes of the tensor.`axis=-1`

in`sum`

means that the sum runs over the last axis.