Projekt_AI-Automatyczny_saper/venv/Lib/site-packages/sklearn/tree/_criterion.pxd

80 lines
3.7 KiB
Cython

# 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 _criterion.pyx for implementation details.
import numpy as np
cimport numpy as np
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 class Criterion:
# The criterion computes the impurity of a node and the reduction of
# impurity of a split on that node. It also computes the output statistics
# such as the mean in regression and class probabilities in classification.
# Internal structures
cdef const DOUBLE_t[:, ::1] y # Values of y
cdef DOUBLE_t* sample_weight # Sample weights
cdef SIZE_t* samples # Sample indices in X, y
cdef SIZE_t start # samples[start:pos] are the samples in the left node
cdef SIZE_t pos # samples[pos:end] are the samples in the right node
cdef SIZE_t end
cdef SIZE_t n_outputs # Number of outputs
cdef SIZE_t n_samples # Number of samples
cdef SIZE_t n_node_samples # Number of samples in the node (end-start)
cdef double weighted_n_samples # Weighted number of samples (in total)
cdef double weighted_n_node_samples # Weighted number of samples in the node
cdef double weighted_n_left # Weighted number of samples in the left node
cdef double weighted_n_right # Weighted number of samples in the right node
cdef double* sum_total # For classification criteria, the sum of the
# weighted count of each label. For regression,
# the sum of w*y. sum_total[k] is equal to
# sum_{i=start}^{end-1} w[samples[i]]*y[samples[i], k],
# where k is output index.
cdef double* sum_left # Same as above, but for the left side of the split
cdef double* sum_right # same as above, but for the right side of the split
# The criterion object is maintained such that left and right collected
# statistics correspond to samples[start:pos] and samples[pos:end].
# Methods
cdef int init(self, const DOUBLE_t[:, ::1] y, DOUBLE_t* sample_weight,
double weighted_n_samples, SIZE_t* samples, SIZE_t start,
SIZE_t end) nogil except -1
cdef int reset(self) nogil except -1
cdef int reverse_reset(self) nogil except -1
cdef int update(self, SIZE_t new_pos) nogil except -1
cdef double node_impurity(self) nogil
cdef void children_impurity(self, double* impurity_left,
double* impurity_right) nogil
cdef void node_value(self, double* dest) nogil
cdef double impurity_improvement(self, double impurity_parent,
double impurity_left,
double impurity_right) nogil
cdef double proxy_impurity_improvement(self) nogil
cdef class ClassificationCriterion(Criterion):
"""Abstract criterion for classification."""
cdef SIZE_t* n_classes
cdef SIZE_t sum_stride
cdef class RegressionCriterion(Criterion):
"""Abstract regression criterion."""
cdef double sq_sum_total