tf.keras.metrics.Metric
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Encapsulates metric logic and state.
Inherits From: Layer
tf.keras.metrics.Metric( name=None, dtype=None, **kwargs )
Usage:
m = SomeMetric(...) for input in ...: m.update_state(input) print('Final result: ', m.result().numpy())
Usage with tf.keras API:
model = tf.keras.Sequential() model.add(tf.keras.layers.Dense(64, activation='relu')) model.add(tf.keras.layers.Dense(64, activation='relu')) model.add(tf.keras.layers.Dense(10, activation='softmax')) model.compile(optimizer=tf.compat.v1.train.RMSPropOptimizer(0.01), loss=tf.keras.losses.categorical_crossentropy, metrics=[tf.keras.metrics.CategoricalAccuracy()]) data = np.random.random((1000, 32)) labels = np.random.random((1000, 10)) dataset = tf.data.Dataset.from_tensor_slices((data, labels)) dataset = dataset.batch(32) dataset = dataset.repeat() model.fit(dataset, epochs=10, steps_per_epoch=30)
To be implemented by subclasses:
-
__init__()
: All state variables should be created in this method by callingself.add_weight()
like:self.var = self.add_weight(...)
-
update_state()
: Has all updates to the state variables like: self.var.assign_add(...). -
result()
: Computes and returns a value for the metric from the state variables.
Example subclass implementation:
class BinaryTruePositives(tf.keras.metrics.Metric): def __init__(self, name='binary_true_positives', **kwargs): super(BinaryTruePositives, self).__init__(name=name, **kwargs) self.true_positives = self.add_weight(name='tp', initializer='zeros') def update_state(self, y_true, y_pred, sample_weight=None): y_true = tf.cast(y_true, tf.bool) y_pred = tf.cast(y_pred, tf.bool) values = tf.logical_and(tf.equal(y_true, True), tf.equal(y_pred, True)) values = tf.cast(values, self.dtype) if sample_weight is not None: sample_weight = tf.cast(sample_weight, self.dtype) sample_weight = tf.broadcast_weights(sample_weight, values) values = tf.multiply(values, sample_weight) self.true_positives.assign_add(tf.reduce_sum(values)) def result(self): return self.true_positives
Methods
add_weight
add_weight( name, shape=(), aggregation=tf.VariableAggregation.SUM, synchronization=tf.VariableSynchronization.ON_READ, initializer=None, dtype=None )
Adds state variable. Only for use by subclasses.
reset_states
reset_states()
Resets all of the metric state variables.
This function is called between epochs/steps, when a metric is evaluated during training.
result
@abc.abstractmethod result()
Computes and returns the metric value tensor.
Result computation is an idempotent operation that simply calculates the metric value using the state variables.
update_state
@abc.abstractmethod update_state( *args, **kwargs )
Accumulates statistics for the metric.
Note: This function is executed as a graph function in graph mode. This means: a) Operations on the same resource are executed in textual order. This should make it easier to do things like add the updated value of a variable to another, for example. b) You don't need to worry about collecting the update ops to execute. All update ops added to the graph by this function will be executed. As a result, code should generally work the same way with graph or eager execution.
Please use tf.config.experimental_run_functions_eagerly(True)
to execute this function eagerly for debugging or profiling.
Args | |
---|---|
*args | |
**kwargs | A mini-batch of inputs to the Metric. |
© 2020 The TensorFlow Authors. All rights reserved.
Licensed under the Creative Commons Attribution License 3.0.
Code samples licensed under the Apache 2.0 License.
https://www.tensorflow.org/versions/r1.15/api_docs/python/tf/keras/metrics/Metric