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Tensorflow overrides multiple operators for the Tensor class, including __lt__, __ge__, etc.

However, the implementation for __eq__ seems to be conspicuously absent:

ops.Tensor._override_operator("__lt__", gen_math_ops.less)
ops.Tensor._override_operator("__le__", gen_math_ops.less_equal)
ops.Tensor._override_operator("__gt__", gen_math_ops.greater)
ops.Tensor._override_operator("__ge__", gen_math_ops.greater_equal)

Why does == for tensorflow's tensors not behave the same way as for numpy arrays?

Code example:

a = tf.constant([1,2])
b = tf.constant([3,4])
a == b
>>> False
a < b
>>> <tf.Tensor 'Less:0' shape=(2,) dtype=bool>

With numpy, on the other hand:

a = np.asarray([1,2])
b = np.asarray([3, 4])
a == b
>>> array([False, False], dtype=bool)
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    Are you basing the assertion that __eq__ is not defined solely on those lines? Because I see other code that handles operator overrides in a generic manner for example. – Martijn Pieters Oct 17 '17 at 7:51
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    import tensorflow as tf, then __eq__ in vars(tf.Tensor) produces True, so it does define the hook. It is defined directly on the class. – Martijn Pieters Oct 17 '17 at 7:55
  • @MartijnPieters No, my observations were based on my code not doing what I expected it to do. The links were produced after some digging. Also, I know that equality of tensors is defined. However, it is non-compliant with numpy arrays. I hope the added code clarifies the question. – musically_ut Oct 17 '17 at 7:59
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    Why should tensors broadcast when testing for equality? The project clearly made an explicit decision to test for identity instead. – Martijn Pieters Oct 17 '17 at 8:00
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    Yes, there is something special; I found a github issue that explains why. – Martijn Pieters Oct 17 '17 at 8:06
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Tensors do implement __eq__, but the implementation only tests for identity. I found this GitHub issue, which explains why tensors test for identity, and do not broadcast:

This may be a complication of fact that tensors can be used as keys in dictionaries, which I believe use == to find the matching object with the same hash

The commenter is correct; if __eq__ was overloaded to broadcast then you could not use tensors as keys in a dictionary. Objects that define a __hash__ method (required if you want to use such objects as keys in a dictionary), must produce the same hash value for two objects that are equal; see the __hash__ method:

The only required property is that objects which compare equal have the same hash value

but broadcasting would produce a 'true' tensor object for objects with different hash values.

(the speculation that __eq__ would break boolean testing is wrong; boolean testing uses __bool__, which tensors do implement).

If you need to make element-wise equality tests on tensors, you can use the tf.equal() and tf.not_equal() functions.

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  • @musically_ut: well, __eq__ is defined, explicitly, as an identity test. – Martijn Pieters Oct 17 '17 at 8:07
  • Wow! The design decision of using tensors as keys in the feed_dict leads to __eq__ not being defined in the same way as for numpy for tf.Tensors! – musically_ut Oct 17 '17 at 8:15
  • it doesn't appear to be this straightfoward. For example, tf.constant([0]) == tf.constant([0]) is a tf.Tensor containing [True], at least in tf2. Appears eager execution has an effect – joelb Jan 16 at 17:19

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