tf.numpy_function

TensorFlow 1 version View source on GitHub

Wraps a python function and uses it as a TensorFlow op.

tf.numpy_function(
    func,
    inp,
    Tout,
    name=None
)

Used in the tutorials:

Given a python function func wrap this function as an operation in a TensorFlow function. func must take numpy arrays as its arguments and return numpy arrays as its outputs.

The following example creates a TensorFlow graph with np.sinh() as an operation in the graph:

def my_numpy_func(x):
# x will be a numpy array with the contents of the input to the
# tf.function
return np.sinh(x)
@tf.function(input_signature=[tf.TensorSpec(None, tf.float32)])
def tf_function(input):
y = tf.numpy_function(my_numpy_func, [input], tf.float32)
return y * y
tf_function(tf.constant(1.))
<tf.Tensor: shape=(), dtype=float32, numpy=1.3810978>

Comparison to tf.py_function: tf.py_function and tf.numpy_function are very similar, except that tf.numpy_function takes numpy arrays, and not tf.Tensors. If you want the function to contain tf.Tensors, and have any TensorFlow operations executed in the function be differentiable, please use tf.py_function.

  • The body of the function (i.e. func) will not be serialized in a tf.SavedModel. Therefore, you should not use this function if you need to serialize your model and restore it in a different environment.

  • The operation must run in the same address space as the Python program that calls tf.numpy_function(). If you are using distributed TensorFlow, you must run a tf.distribute.Server in the same process as the program that calls tf.numpy_function you must pin the created operation to a device in that server (e.g. using with tf.device():).

  • Since the function takes numpy arrays, you cannot take gradients through a numpy_function. If you require something that is differentiable, please consider using tf.py_function.

Args:

  • func: A Python function, which accepts numpy.ndarray objects as arguments and returns a list of numpy.ndarray objects (or a single numpy.ndarray). This function must accept as many arguments as there are tensors in inp, and these argument types will match the corresponding tf.Tensor objects in inp. The returns numpy.ndarrays must match the number and types defined Tout. Important Note: Input and output numpy.ndarrays of func are not guaranteed to be copies. In some cases their underlying memory will be shared with the corresponding TensorFlow tensors. In-place modification or storing func input or return values in python datastructures without explicit (np.)copy can have non-deterministic consequences.
  • inp: A list of tf.Tensor objects.
  • Tout: A list or tuple of tensorflow data types or a single tensorflow data type if there is only one, indicating what func returns. stateful (bool): If True, the function should be considered stateful. If a function is stateless, when given the same input it will return the same output and have no observable side effects. Optimizations such as common subexpression elimination are only performed on stateless operations.
  • name: (Optional) A name for the operation.

Returns:

Single or list of tf.Tensor which func computes.

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