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Modular toolkit for Data Processing MDP
Package mdp :: Package nodes :: Class NuSVRScikitsLearnNode
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Class NuSVRScikitsLearnNode


NuSVR for sparse matrices (csr)
This node has been automatically generated by wrapping the ``scikits.learn.svm.sparse.classes.NuSVR`` class
from the ``sklearn`` library.  The wrapped instance can be accessed
through the ``scikits_alg`` attribute.
See :class:`scikits.learn.svm.NuSVC` for a complete list of parameters

**Notes**

For best results, this accepts a matrix in csr format
(scipy.sparse.csr), but should be able to convert from any array-like
object (including other sparse representations).

**Examples**

>>> from scikits.learn.svm.sparse import NuSVR
>>> import numpy as np
>>> n_samples, n_features = 10, 5
>>> np.random.seed(0)
>>> y = np.random.randn(n_samples)
>>> X = np.random.randn(n_samples, n_features)
>>> clf = NuSVR(nu=0.1, C=1.0)
>>> clf.fit(X, y)
NuSVR(kernel='rbf', C=1.0, probability=False, degree=3, shrinking=True,
   tol=0.001, epsilon=0.1, cache_size=100.0, coef0=0.0, nu=0.1, gamma=0.1)
Instance Methods [hide private]
 
__init__(self, input_dim=None, output_dim=None, dtype=None, **kwargs)
NuSVR for sparse matrices (csr) This node has been automatically generated by wrapping the ``scikits.learn.svm.sparse.classes.NuSVR`` class from the ``sklearn`` library.
 
_execute(self, x)
 
_get_supported_dtypes(self)
Return the list of dtypes supported by this node. The types can be specified in any format allowed by numpy.dtype.
 
_stop_training(self, **kwargs)
Concatenate the collected data in a single array.
 
execute(self, x)
This function does classification or regression on an array of test vectors T. This node has been automatically generated by wrapping the scikits.learn.svm.sparse.classes.NuSVR class from the sklearn library. The wrapped instance can be accessed through the scikits_alg attribute. For a classification model, the predicted class for each sample in T is returned. For a regression model, the function value of T calculated is returned.
 
stop_training(self, **kwargs)
Fit the SVM model according to the given training data and parameters. This node has been automatically generated by wrapping the scikits.learn.svm.sparse.classes.NuSVR class from the sklearn library. The wrapped instance can be accessed through the scikits_alg attribute. Parameters

Inherited from unreachable.newobject: __long__, __native__, __nonzero__, __unicode__, next

Inherited from object: __delattr__, __format__, __getattribute__, __hash__, __new__, __reduce__, __reduce_ex__, __setattr__, __sizeof__, __subclasshook__

    Inherited from Cumulator
 
_train(self, *args)
Collect all input data in a list.
 
train(self, *args)
Collect all input data in a list.
    Inherited from Node
 
__add__(self, other)
 
__call__(self, x, *args, **kwargs)
Calling an instance of Node is equivalent to calling its execute method.
 
__repr__(self)
repr(x)
 
__str__(self)
str(x)
 
_check_input(self, x)
 
_check_output(self, y)
 
_check_train_args(self, x, *args, **kwargs)
 
_get_train_seq(self)
 
_if_training_stop_training(self)
 
_inverse(self, x)
 
_pre_execution_checks(self, x)
This method contains all pre-execution checks.
 
_pre_inversion_checks(self, y)
This method contains all pre-inversion checks.
 
_refcast(self, x)
Helper function to cast arrays to the internal dtype.
 
_set_dtype(self, t)
 
_set_input_dim(self, n)
 
_set_output_dim(self, n)
 
copy(self, protocol=None)
Return a deep copy of the node.
 
get_current_train_phase(self)
Return the index of the current training phase.
 
get_dtype(self)
Return dtype.
 
get_input_dim(self)
Return input dimensions.
 
get_output_dim(self)
Return output dimensions.
 
get_remaining_train_phase(self)
Return the number of training phases still to accomplish.
 
get_supported_dtypes(self)
Return dtypes supported by the node as a list of numpy.dtype objects.
 
has_multiple_training_phases(self)
Return True if the node has multiple training phases.
 
inverse(self, y, *args, **kwargs)
Invert y.
 
is_training(self)
Return True if the node is in the training phase, False otherwise.
 
save(self, filename, protocol=-1)
Save a pickled serialization of the node to filename. If filename is None, return a string.
 
set_dtype(self, t)
Set internal structures' dtype.
 
set_input_dim(self, n)
Set input dimensions.
 
set_output_dim(self, n)
Set output dimensions.
Static Methods [hide private]
 
is_invertible()
Return True if the node can be inverted, False otherwise.
bool
is_trainable()
Return True if the node can be trained, False otherwise.
Properties [hide private]

Inherited from object: __class__

    Inherited from Node
  _train_seq
List of tuples:
  dtype
dtype
  input_dim
Input dimensions
  output_dim
Output dimensions
  supported_dtypes
Supported dtypes
Method Details [hide private]

__init__(self, input_dim=None, output_dim=None, dtype=None, **kwargs)
(Constructor)

  

NuSVR for sparse matrices (csr)
This node has been automatically generated by wrapping the ``scikits.learn.svm.sparse.classes.NuSVR`` class
from the ``sklearn`` library.  The wrapped instance can be accessed
through the ``scikits_alg`` attribute.
See :class:`scikits.learn.svm.NuSVC` for a complete list of parameters

**Notes**

For best results, this accepts a matrix in csr format
(scipy.sparse.csr), but should be able to convert from any array-like
object (including other sparse representations).

**Examples**

>>> from scikits.learn.svm.sparse import NuSVR
>>> import numpy as np
>>> n_samples, n_features = 10, 5
>>> np.random.seed(0)
>>> y = np.random.randn(n_samples)
>>> X = np.random.randn(n_samples, n_features)
>>> clf = NuSVR(nu=0.1, C=1.0)
>>> clf.fit(X, y)
NuSVR(kernel='rbf', C=1.0, probability=False, degree=3, shrinking=True,
   tol=0.001, epsilon=0.1, cache_size=100.0, coef0=0.0, nu=0.1, gamma=0.1)
Overrides: object.__init__

_execute(self, x)

 
Overrides: Node._execute

_get_supported_dtypes(self)

 
Return the list of dtypes supported by this node. The types can be specified in any format allowed by numpy.dtype.
Overrides: Node._get_supported_dtypes

_stop_training(self, **kwargs)

 
Concatenate the collected data in a single array.
Overrides: Node._stop_training

execute(self, x)

 

This function does classification or regression on an array of test vectors T. This node has been automatically generated by wrapping the scikits.learn.svm.sparse.classes.NuSVR class from the sklearn library. The wrapped instance can be accessed through the scikits_alg attribute. For a classification model, the predicted class for each sample in T is returned. For a regression model, the function value of T calculated is returned.

For an one-class model, +1 or -1 is returned.

Parameters

T : scipy.sparse.csr, shape = [n_samples, n_features]

Returns

C : array, shape = [n_samples]

Overrides: Node.execute

is_invertible()
Static Method

 
Return True if the node can be inverted, False otherwise.
Overrides: Node.is_invertible
(inherited documentation)

is_trainable()
Static Method

 
Return True if the node can be trained, False otherwise.
Returns: bool
A boolean indicating whether the node can be trained.
Overrides: Node.is_trainable

stop_training(self, **kwargs)

 

Fit the SVM model according to the given training data and parameters. This node has been automatically generated by wrapping the scikits.learn.svm.sparse.classes.NuSVR class from the sklearn library. The wrapped instance can be accessed through the scikits_alg attribute. Parameters

X : sparse matrix, shape = [n_samples, n_features]
Training vectors, where n_samples is the number of samples and n_features is the number of features.
y : array-like, shape = [n_samples]
Target values (integers in classification, real numbers in regression)
class_weight : {dict, 'auto'}, optional

Weights associated with classes in the form {class_label : weight}. If not given, all classes are supposed to have weight one.

The 'auto' mode uses the values of y to automatically adjust weights inversely proportional to class frequencies.

sample_weight : array-like, shape = [n_samples], optional
Weights applied to individual samples (1. for unweighted).

Returns

self : object
Returns an instance of self.

Notes

For maximum effiency, use a sparse matrix in csr format (scipy.sparse.csr_matrix)

Overrides: Node.stop_training

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Modular toolkit for Data Processing MDP
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