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/ tree / _splitter.pxd
# Authors: Gilles Louppe <g.louppe@gmail.com>
# Peter Prettenhofer <peter.prettenhofer@gmail.com>
# Brian Holt <bdholt1@gmail.com>
# Joel Nothman <joel.nothman@gmail.com>
# Arnaud Joly <arnaud.v.joly@gmail.com>
# Jacob Schreiber <jmschreiber91@gmail.com>
#
# License: BSD 3 clause
# See _splitter.pyx for details.
import numpy as np
cimport numpy as np
from ._criterion cimport Criterion
from ._tree cimport DTYPE_t # Type of X
from ._tree cimport DOUBLE_t # Type of y, sample_weight
from ._tree cimport SIZE_t # Type for indices and counters
from ._tree cimport INT32_t # Signed 32 bit integer
from ._tree cimport UINT32_t # Unsigned 32 bit integer
cdef struct SplitRecord:
# Data to track sample split
SIZE_t feature # Which feature to split on.
SIZE_t pos # Split samples array at the given position,
# i.e. count of samples below threshold for feature.
# pos is >= end if the node is a leaf.
double threshold # Threshold to split at.
double improvement # Impurity improvement given parent node.
double impurity_left # Impurity of the left split.
double impurity_right # Impurity of the right split.
cdef class Splitter:
# The splitter searches in the input space for a feature and a threshold
# to split the samples samples[start:end].
#
# The impurity computations are delegated to a criterion object.
# Internal structures
cdef public Criterion criterion # Impurity criterion
cdef public SIZE_t max_features # Number of features to test
cdef public SIZE_t min_samples_leaf # Min samples in a leaf
cdef public double min_weight_leaf # Minimum weight in a leaf
cdef object random_state # Random state
cdef UINT32_t rand_r_state # sklearn_rand_r random number state
cdef SIZE_t* samples # Sample indices in X, y
cdef SIZE_t n_samples # X.shape[0]
cdef double weighted_n_samples # Weighted number of samples
cdef SIZE_t* features # Feature indices in X
cdef SIZE_t* constant_features # Constant features indices
cdef SIZE_t n_features # X.shape[1]
cdef DTYPE_t* feature_values # temp. array holding feature values
cdef SIZE_t start # Start position for the current node
cdef SIZE_t end # End position for the current node
cdef const DOUBLE_t[:, ::1] y
cdef DOUBLE_t* sample_weight
# The samples vector `samples` is maintained by the Splitter object such
# that the samples contained in a node are contiguous. With this setting,
# `node_split` reorganizes the node samples `samples[start:end]` in two
# subsets `samples[start:pos]` and `samples[pos:end]`.
# The 1-d `features` array of size n_features contains the features
# indices and allows fast sampling without replacement of features.
# The 1-d `constant_features` array of size n_features holds in
# `constant_features[:n_constant_features]` the feature ids with
# constant values for all the samples that reached a specific node.
# The value `n_constant_features` is given by the parent node to its
# child nodes. The content of the range `[n_constant_features:]` is left
# undefined, but preallocated for performance reasons
# This allows optimization with depth-based tree building.
# Methods
cdef int init(self, object X, const DOUBLE_t[:, ::1] y,
DOUBLE_t* sample_weight,
np.ndarray X_idx_sorted=*) except -1
cdef int node_reset(self, SIZE_t start, SIZE_t end,
double* weighted_n_node_samples) nogil except -1
cdef int node_split(self,
double impurity, # Impurity of the node
SplitRecord* split,
SIZE_t* n_constant_features) nogil except -1
cdef void node_value(self, double* dest) nogil
cdef double node_impurity(self) nogil