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Hi I have been trying to make a custom loss function in keras for dice_error_coefficient. It has its implementations in tensorboard and I tried using the same function in keras with tensorflow but it keeps returning a NoneType when I used model.train_on_batch or model.fit where as it gives proper values when used in metrics in the model. Can please someone help me out with what should i do? I have tried following libraries like Keras-FCN by ahundt where he has used custom loss functions but none of it seems to work. The target and output in the code are y_true and y_pred respectively as used in the losses.py file in keras.

def dice_hard_coe(target, output, threshold=0.5, axis=[1,2], smooth=1e-5):
    """References
    -----------
    - `Wiki-Dice <https://en.wikipedia.org/wiki/Sørensen–Dice_coefficient>`_
    """

    output = tf.cast(output > threshold, dtype=tf.float32)
    target = tf.cast(target > threshold, dtype=tf.float32)
    inse = tf.reduce_sum(tf.multiply(output, target), axis=axis)
    l = tf.reduce_sum(output, axis=axis)
    r = tf.reduce_sum(target, axis=axis)
    hard_dice = (2. * inse + smooth) / (l + r + smooth)
    hard_dice = tf.reduce_mean(hard_dice)
    return hard_dice

2 Answers 2

100

There are two steps in implementing a parameterized custom loss function in Keras. First, writing a method for the coefficient/metric. Second, writing a wrapper function to format things the way Keras needs them to be.

  1. It's actually quite a bit cleaner to use the Keras backend instead of tensorflow directly for simple custom loss functions like DICE. Here's an example of the coefficient implemented that way:

    import keras.backend as K
    def dice_coef(y_true, y_pred, smooth, thresh):
        y_pred = y_pred > thresh
        y_true_f = K.flatten(y_true)
        y_pred_f = K.flatten(y_pred)
        intersection = K.sum(y_true_f * y_pred_f)
    
        return (2. * intersection + smooth) / (K.sum(y_true_f) + K.sum(y_pred_f) + smooth)
    
  2. Now for the tricky part. Keras loss functions must only take (y_true, y_pred) as parameters. So we need a separate function that returns another function.

    def dice_loss(smooth, thresh):
      def dice(y_true, y_pred)
        return -dice_coef(y_true, y_pred, smooth, thresh)
      return dice
    

Finally, you can use it as follows in Keras compile.

# build model 
model = my_model()
# get the loss function
model_dice = dice_loss(smooth=1e-5, thresh=0.5)
# compile model
model.compile(loss=model_dice)
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  • 'def dice(y_true, y_pred): return -dice_coef(y_true, y_pred, 1e-5, 0.5) def dice_coef(y_true, y_pred, smooth, thresh): y_pred = K.cast(y_pred > thresh ,dtype=tf.float32) y_true = K.cast(y_true > thresh, dtype=tf.float32) y_true_f = K.flatten(y_true) y_pred_f = K.flatten(y_pred) intersection = K.sum(y_true_f * y_pred_f) return (2. * intersection + smooth) / (K.sum(y_true_f) + K.sum(y_pred_f) + smooth) Final_Model.compile(optimizer=opt, loss=dice,metrics=['acc'])' this gives me an error 'Tried to convert 'x' to a tensor and failed. Error: None values not supported.' Aug 30, 2017 at 15:47
  • are you calling an instance of dice before passing it to your model? dice_fn = dice(smooth=1e-5, thresh=0.5) Final_Model.compile(optimizer=opt, loss=dice_fn)
    – T. Nair
    Aug 30, 2017 at 15:58
  • 2
    It worked just the way you said. The problem is the output cannot be casted to 1,0 that way. So it was returning a None Value. On removing that part it worked perfectly. Thanks for you help. Aug 30, 2017 at 16:43
  • Hi, can anyone here help in my question: stackoverflow.com/questions/53650690/… Thanks,
    – N. F.
    Dec 7, 2018 at 2:53
  • 4
    Can someone confirm if this works? ypred and ytrue are Tensors, so ypred = ypred > ytrue will fail. Any computation on ypred and ytrue fails in my case.
    – sziraqui
    Dec 13, 2018 at 17:07
3

According to the documentation, you can use a custom loss function like this:

Any callable with the signature loss_fn(y_true, y_pred) that returns an array of losses (one of sample in the input batch) can be passed to compile() as a loss. Note that sample weighting is automatically supported for any such loss.

As a simple example:

def my_loss_fn(y_true, y_pred):
    squared_difference = tf.square(y_true - y_pred)
    return tf.reduce_mean(squared_difference, axis=-1)  # Note the `axis=-1`

model.compile(optimizer='adam', loss=my_loss_fn)

Complete example:

import tensorflow as tf
import numpy as np

def my_loss_fn(y_true, y_pred):
    squared_difference = tf.square(y_true - y_pred)
    return tf.reduce_mean(squared_difference, axis=-1)  # Note the `axis=-1`

model = tf.keras.Sequential([
    tf.keras.layers.Dense(8, activation='relu'),
    tf.keras.layers.Dense(16, activation='relu'),
    tf.keras.layers.Dense(1)])

model.compile(optimizer='adam', loss=my_loss_fn)

x = np.random.rand(1000)
y = x**2

history = model.fit(x, y, epochs=10)

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