KMeansClustering
Inherits From: Estimator
Defined in tensorflow/contrib/learn/python/learn/estimators/kmeans.py
.
See the guide: Learn (contrib) > Estimators
An Estimator for K-Means clustering.
THIS CLASS IS DEPRECATED. See contrib/learn/README.md for general migration instructions.
config
model_dir
Returns a path in which the eval process will look for checkpoints.
model_fn
Returns the model_fn which is bound to self.params.
The model_fn with the following signature: def model_fn(features, labels, mode, metrics)
__init__
__init__( num_clusters, model_dir=None, initial_clusters=RANDOM_INIT, distance_metric=SQUARED_EUCLIDEAN_DISTANCE, random_seed=0, use_mini_batch=True, mini_batch_steps_per_iteration=1, kmeans_plus_plus_num_retries=2, relative_tolerance=None, config=None )
Creates a model for running KMeans training and inference. (deprecated)
THIS FUNCTION IS DEPRECATED. It will be removed in a future version. Instructions for updating: Please use tf.contrib.factorization.KMeansClustering instead of tf.contrib.learn.KMeansClustering. It has a similar interface, but uses the tf.estimator.Estimator API instead of tf.contrib.learn.Estimator.
num_clusters
: number of clusters to train.model_dir
: the directory to save the model results and log files.initial_clusters
: specifies how to initialize the clusters for training. See clustering_ops.kmeans for the possible values.distance_metric
: the distance metric used for clustering. See clustering_ops.kmeans for the possible values.random_seed
: Python integer. Seed for PRNG used to initialize centers.use_mini_batch
: If true, use the mini-batch k-means algorithm. Else assume full batch.mini_batch_steps_per_iteration
: number of steps after which the updated cluster centers are synced back to a master copy. See clustering_ops.py for more details.kmeans_plus_plus_num_retries
: For each point that is sampled during kmeans++ initialization, this parameter specifies the number of additional points to draw from the current distribution before selecting the best. If a negative value is specified, a heuristic is used to sample O(log(num_to_sample)) additional points.relative_tolerance
: A relative tolerance of change in the loss between iterations. Stops learning if the loss changes less than this amount. Note that this may not work correctly if use_mini_batch=True.config
: See Estimatorclusters
clusters()
Returns cluster centers. (deprecated)
THIS FUNCTION IS DEPRECATED. It will be removed in a future version. Instructions for updating: Please use tf.contrib.factorization.KMeansClustering instead of tf.contrib.learn.KMeansClustering. It has a similar interface, but uses the tf.estimator.Estimator API instead of tf.contrib.learn.Estimator.
evaluate
evaluate( x=None, y=None, input_fn=None, feed_fn=None, batch_size=None, steps=None, metrics=None, name=None, checkpoint_path=None, hooks=None, log_progress=True )
See Evaluable
. (deprecated arguments)
SOME ARGUMENTS ARE DEPRECATED. They will be removed after 2016-12-01. Instructions for updating: Estimator is decoupled from Scikit Learn interface by moving into separate class SKCompat. Arguments x, y and batch_size are only available in the SKCompat class, Estimator will only accept input_fn. Example conversion: est = Estimator(...) -> est = SKCompat(Estimator(...))
ValueError
: If at least one of x
or y
is provided, and at least one of input_fn
or feed_fn
is provided. Or if metrics
is not None
or dict
.export
export( export_dir, input_fn=export._default_input_fn, input_feature_key=None, use_deprecated_input_fn=True, signature_fn=None, prediction_key=None, default_batch_size=1, exports_to_keep=None, checkpoint_path=None )
Exports inference graph into given dir. (deprecated)
THIS FUNCTION IS DEPRECATED. It will be removed after 2017-03-25. Instructions for updating: Please use Estimator.export_savedmodel() instead.
export_dir
: A string containing a directory to write the exported graph and checkpoints.input_fn
: If use_deprecated_input_fn
is true, then a function that given Tensor
of Example
strings, parses it into features that are then passed to the model. Otherwise, a function that takes no argument and returns a tuple of (features, labels), where features is a dict of string key to Tensor
and labels is a Tensor
that's currently not used (and so can be None
).input_feature_key
: Only used if use_deprecated_input_fn
is false. String key into the features dict returned by input_fn
that corresponds to a the raw Example
strings Tensor
that the exported model will take as input. Can only be None
if you're using a custom signature_fn
that does not use the first arg (examples).use_deprecated_input_fn
: Determines the signature format of input_fn
.signature_fn
: Function that returns a default signature and a named signature map, given Tensor
of Example
strings, dict
of Tensor
s for features and Tensor
or dict
of Tensor
s for predictions.prediction_key
: The key for a tensor in the predictions
dict (output from the model_fn
) to use as the predictions
input to the signature_fn
. Optional. If None
, predictions will pass to signature_fn
without filtering.default_batch_size
: Default batch size of the Example
placeholder.exports_to_keep
: Number of exports to keep.checkpoint_path
: the checkpoint path of the model to be exported. If it is None
(which is default), will use the latest checkpoint in export_dir.The string path to the exported directory. NB: this functionality was added ca. 2016/09/25; clients that depend on the return value may need to handle the case where this function returns None because subclasses are not returning a value.
export_savedmodel
export_savedmodel( export_dir_base, serving_input_fn, default_output_alternative_key=None, assets_extra=None, as_text=False, checkpoint_path=None, graph_rewrite_specs=(GraphRewriteSpec((tag_constants.SERVING,), ()),), strip_default_attrs=False )
Exports inference graph as a SavedModel into given dir.
export_dir_base
: A string containing a directory to write the exported graph and checkpoints.serving_input_fn
: A function that takes no argument and returns an InputFnOps
.default_output_alternative_key
: the name of the head to serve when none is specified. Not needed for single-headed models.assets_extra
: A dict specifying how to populate the assets.extra directory within the exported SavedModel. Each key should give the destination path (including the filename) relative to the assets.extra directory. The corresponding value gives the full path of the source file to be copied. For example, the simple case of copying a single file without renaming it is specified as {'my_asset_file.txt': '/path/to/my_asset_file.txt'}
.as_text
: whether to write the SavedModel proto in text format.checkpoint_path
: The checkpoint path to export. If None (the default), the most recent checkpoint found within the model directory is chosen.graph_rewrite_specs
: an iterable of GraphRewriteSpec
. Each element will produce a separate MetaGraphDef within the exported SavedModel, tagged and rewritten as specified. Defaults to a single entry using the default serving tag ("serve") and no rewriting.strip_default_attrs
: Boolean. If True
, default-valued attributes will be removed from the NodeDefs. For a detailed guide, see Stripping Default-Valued Attributes.The string path to the exported directory.
ValueError
: if an unrecognized export_type is requested.fit
fit( x=None, y=None, input_fn=None, steps=None, batch_size=None, monitors=None, max_steps=None )
See Trainable
. (deprecated arguments)
SOME ARGUMENTS ARE DEPRECATED. They will be removed after 2016-12-01. Instructions for updating: Estimator is decoupled from Scikit Learn interface by moving into separate class SKCompat. Arguments x, y and batch_size are only available in the SKCompat class, Estimator will only accept input_fn. Example conversion: est = Estimator(...) -> est = SKCompat(Estimator(...))
ValueError
: If x
or y
are not None
while input_fn
is not None
.ValueError
: If both steps
and max_steps
are not None
.get_params
get_params(deep=True)
Get parameters for this estimator.
deep
: boolean, optional
If True
, will return the parameters for this estimator and contained subobjects that are estimators.
params
: mapping of string to any Parameter names mapped to their values.get_variable_names
get_variable_names()
Returns list of all variable names in this model.
List of names.
get_variable_value
get_variable_value(name)
Returns value of the variable given by name.
name
: string, name of the tensor.Numpy array - value of the tensor.
partial_fit
partial_fit( x=None, y=None, input_fn=None, steps=1, batch_size=None, monitors=None )
Incremental fit on a batch of samples. (deprecated arguments)
SOME ARGUMENTS ARE DEPRECATED. They will be removed after 2016-12-01. Instructions for updating: Estimator is decoupled from Scikit Learn interface by moving into separate class SKCompat. Arguments x, y and batch_size are only available in the SKCompat class, Estimator will only accept input_fn. Example conversion: est = Estimator(...) -> est = SKCompat(Estimator(...))
This method is expected to be called several times consecutively on different or the same chunks of the dataset. This either can implement iterative training or out-of-core/online training.
This is especially useful when the whole dataset is too big to fit in memory at the same time. Or when model is taking long time to converge, and you want to split up training into subparts.
x
: Matrix of shape [n_samples, n_features...]. Can be iterator that returns arrays of features. The training input samples for fitting the model. If set, input_fn
must be None
.y
: Vector or matrix [n_samples] or [n_samples, n_outputs]. Can be iterator that returns array of labels. The training label values (class labels in classification, real numbers in regression). If set, input_fn
must be None
.input_fn
: Input function. If set, x
, y
, and batch_size
must be None
.steps
: Number of steps for which to train model. If None
, train forever.batch_size
: minibatch size to use on the input, defaults to first dimension of x
. Must be None
if input_fn
is provided.monitors
: List of BaseMonitor
subclass instances. Used for callbacks inside the training loop.self
, for chaining.
ValueError
: If at least one of x
and y
is provided, and input_fn
is provided.predict
predict( x=None, input_fn=None, batch_size=None, outputs=None, as_iterable=True, iterate_batches=False )
Returns predictions for given features. (deprecated arguments)
SOME ARGUMENTS ARE DEPRECATED. They will be removed after 2016-12-01. Instructions for updating: Estimator is decoupled from Scikit Learn interface by moving into separate class SKCompat. Arguments x, y and batch_size are only available in the SKCompat class, Estimator will only accept input_fn. Example conversion: est = Estimator(...) -> est = SKCompat(Estimator(...))
x
: Matrix of shape [n_samples, n_features...]. Can be iterator that returns arrays of features. The training input samples for fitting the model. If set, input_fn
must be None
.input_fn
: Input function. If set, x
and 'batch_size' must be None
.batch_size
: Override default batch size. If set, 'input_fn' must be 'None'.outputs
: list of str
, name of the output to predict. If None
, returns all.as_iterable
: If True, return an iterable which keeps yielding predictions for each example until inputs are exhausted. Note: The inputs must terminate if you want the iterable to terminate (e.g. be sure to pass num_epochs=1 if you are using something like read_batch_features).iterate_batches
: If True, yield the whole batch at once instead of decomposing the batch into individual samples. Only relevant when as_iterable is True.A numpy array of predicted classes or regression values if the constructor's model_fn
returns a Tensor
for predictions
or a dict
of numpy arrays if model_fn
returns a dict
. Returns an iterable of predictions if as_iterable is True.
ValueError
: If x and input_fn are both provided or both None
.predict_cluster_idx
predict_cluster_idx(input_fn=None)
Yields predicted cluster indices. (deprecated)
THIS FUNCTION IS DEPRECATED. It will be removed in a future version. Instructions for updating: Please use tf.contrib.factorization.KMeansClustering instead of tf.contrib.learn.KMeansClustering. It has a similar interface, but uses the tf.estimator.Estimator API instead of tf.contrib.learn.Estimator.
score
score( input_fn=None, steps=None )
Predict total sum of distances to nearest clusters. (deprecated)
THIS FUNCTION IS DEPRECATED. It will be removed in a future version. Instructions for updating: Please use tf.contrib.factorization.KMeansClustering instead of tf.contrib.learn.KMeansClustering. It has a similar interface, but uses the tf.estimator.Estimator API instead of tf.contrib.learn.Estimator.
Note that this function is different from the corresponding one in sklearn which returns the negative of the sum of distances.
input_fn
: see predict.steps
: see predict.Total sum of distances to nearest clusters.
set_params
set_params(**params)
Set the parameters of this estimator.
The method works on simple estimators as well as on nested objects (such as pipelines). The former have parameters of the form <component>__<parameter>
so that it's possible to update each component of a nested object.
**params
: Parameters.self
ValueError
: If params contain invalid names.transform
transform( input_fn=None, as_iterable=False )
Transforms each element to distances to cluster centers. (deprecated)
THIS FUNCTION IS DEPRECATED. It will be removed in a future version. Instructions for updating: Please use tf.contrib.factorization.KMeansClustering instead of tf.contrib.learn.KMeansClustering. It has a similar interface, but uses the tf.estimator.Estimator API instead of tf.contrib.learn.Estimator.
Note that this function is different from the corresponding one in sklearn. For SQUARED_EUCLIDEAN distance metric, sklearn transform returns the EUCLIDEAN distance, while this function returns the SQUARED_EUCLIDEAN distance.
input_fn
: see predict.as_iterable
: see predictArray with same number of rows as x, and num_clusters columns, containing distances to the cluster centers.
ALL_SCORES
CLUSTERS
CLUSTER_IDX
COSINE_DISTANCE
KMEANS_PLUS_PLUS_INIT
LOSS_OP_NAME
RANDOM_INIT
SCORES
SQUARED_EUCLIDEAN_DISTANCE
© 2018 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/api_docs/python/tf/contrib/learn/KMeansClustering