import numpy as np from skopt.space import Integer class SKDecimal(Integer): def __init__(self, low, high, decimals=3, prior="uniform", base=10, transform=None, name=None, dtype=np.int64): self.decimals = decimals self.pow_dot_one = pow(0.1, self.decimals) self.pow_ten = pow(10, self.decimals) _low = int(low * self.pow_ten) _high = int(high * self.pow_ten) # trunc to precision to avoid points out of space self.low_orig = round(_low * self.pow_dot_one, self.decimals) self.high_orig = round(_high * self.pow_dot_one, self.decimals) super().__init__(_low, _high, prior, base, transform, name, dtype) def __repr__(self): return ( f"Decimal(low={self.low_orig}, high={self.high_orig}, decimals={self.decimals}, " f"prior='{self.prior}', transform='{self.transform_}')" ) def __contains__(self, point): if isinstance(point, list): point = np.array(point) return self.low_orig <= point <= self.high_orig def transform(self, Xt): return super().transform([int(v * self.pow_ten) for v in Xt]) def inverse_transform(self, Xt): res = super().inverse_transform(Xt) # equivalent to [round(x * pow(0.1, self.decimals), self.decimals) for x in res] return [int(v) / self.pow_ten for v in res]