# This file is part of DEAP. # # DEAP is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as # published by the Free Software Foundation, either version 3 of # the License, or (at your option) any later version. # # DEAP is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with DEAP. If not, see . from math import exp, sin, cos def kotanchek(data): """Kotanchek benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`\mathbf{x} \in [-1, 7]^2` * - Function - :math:`f(\mathbf{x}) = \\frac{e^{-(x_1 - 1)^2}}{3.2 + (x_2 - 2.5)^2}` """ return exp(-(data[0] - 1)**2) / (3.2 + (data[1] - 2.5)**2) def salustowicz_1d(data): """Salustowicz benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`x \in [0, 10]` * - Function - :math:`f(x) = e^x x^3 \cos(x) \sin(x) (\cos(x) \sin^2(x) - 1)` """ return exp(-data[0]) * data[0]**3 * cos(data[0]) * sin(data[0]) * (cos(data[0]) * sin(data[0])**2 - 1) def salustowicz_2d(data): """Salustowicz benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`\mathbf{x} \in [0, 7]^2` * - Function - :math:`f(\mathbf{x}) = e^{x_1} x_1^3 \cos(x_1) \sin(x_1) (\cos(x_1) \sin^2(x_1) - 1) (x_2 -5)` """ return exp(-data[0]) * data[0]**3 * cos(data[0]) * sin(data[0]) * (cos(data[0]) * sin(data[0])**2 - 1) * (data[1] - 5) def unwrapped_ball(data): """Unwrapped ball benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`\mathbf{x} \in [-2, 8]^n` * - Function - :math:`f(\mathbf{x}) = \\frac{10}{5 + \sum_{i=1}^n (x_i - 3)^2}` """ return 10. / (5. + sum((d - 3)**2 for d in data)) def rational_polynomial(data): """Rational polynomial ball benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`\mathbf{x} \in [0, 2]^3` * - Function - :math:`f(\mathbf{x}) = \\frac{30 * (x_1 - 1) (x_3 - 1)}{x_2^2 (x_1 - 10)}` """ return 30. * (data[0] - 1) * (data[2] - 1) / (data[1]**2 * (data[0] - 10)) def sin_cos(data): """Sine cosine benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`\mathbf{x} \in [0, 6]^2` * - Function - :math:`f(\mathbf{x}) = 6\sin(x_1)\cos(x_2)` """ 6 * sin(data[0]) * cos(data[1]) def ripple(data): """Ripple benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`\mathbf{x} \in [-5, 5]^2` * - Function - :math:`f(\mathbf{x}) = (x_1 - 3) (x_2 - 3) + 2 \sin((x_1 - 4) (x_2 -4))` """ return (data[0] - 3) * (data[1] - 3) + 2 * sin((data[0] - 4) * (data[1] - 4)) def rational_polynomial2(data): """Rational polynomial benchmark function. .. list-table:: :widths: 10 50 :stub-columns: 1 * - Range - :math:`\mathbf{x} \in [0, 6]^2` * - Function - :math:`f(\mathbf{x}) = \\frac{(x_1 - 3)^4 + (x_2 - 3)^3 - (x_2 - 3)}{(x_2 - 2)^4 + 10}` """ return ((data[0] - 3)**4 + (data[1] - 3)**3 - (data[1] - 3)) / ((data[1] - 2)**4 + 10)