89 lines
1.9 KiB
Python
89 lines
1.9 KiB
Python
from pprint import pformat
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from re import sub
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class DensityRatio:
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"""Density Ratio."""
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def __init__(
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self,
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method,
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alpha,
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theta,
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lambda_,
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alpha_PE,
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alpha_KL,
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kernel_info,
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compute_density_ratio,
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):
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self.method = method
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self.alpha = alpha
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self.theta = theta
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self.lambda_ = lambda_
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self.alpha_PE = alpha_PE
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self.alpha_KL = alpha_KL
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self.kernel_info = kernel_info
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self.compute_density_ratio = compute_density_ratio
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def __str__(self):
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return """
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Method: %(method)s
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Alpha: %(alpha)s
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Kernel Information:
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%(kernel_info)s
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Kernel Weights (theta):
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%(theta)s
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Regularization Parameter (lambda): %(lambda_)s
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Alpha-Relative PE-Divergence: %(alpha_PE)s
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Alpha-Relative KL-Divergence: %(alpha_KL)s
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Function to Estimate Density Ratio:
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compute_density_ratio(x)
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"""[
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1:-1
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] % dict(
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method=self.method,
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kernel_info=self.kernel_info,
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alpha=self.alpha,
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theta=my_format(self.theta),
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lambda_=self.lambda_,
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alpha_PE=self.alpha_PE,
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alpha_KL=self.alpha_KL,
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)
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class KernelInfo:
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"""Kernel Information."""
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def __init__(self, kernel_type, kernel_num, sigma, centers):
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self.kernel_type = kernel_type
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self.kernel_num = kernel_num
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self.sigma = sigma
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self.centers = centers
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def __str__(self):
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return """
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Kernel type: %(kernel_type)s
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Number of kernels: %(kernel_num)s
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Bandwidth(sigma): %(sigma)s
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Centers: %(centers)s
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"""[
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1:-1
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] % dict(
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kernel_type=self.kernel_type,
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kernel_num=self.kernel_num,
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sigma=self.sigma,
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centers=my_format(self.centers),
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)
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def my_format(str):
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return sub(r"\s+", " ", (pformat(str).split("\n")[0] + ".."))
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