Python DifferentialEvolutionSolver.init_population_lhsの例

プログラミング言語: Python

名前空間/パッケージ名: scipy.optimize._differentialevolution

メソッド/関数: init_population_lhs

hotexamples.comのコード掲載数: 4

Python DifferentialEvolutionSolver.init_population_lhs - 4件のコード例が見つかりました。すべてオープンソースプロジェクトから抽出されたPythonのscipy.optimize._differentialevolution.DifferentialEvolutionSolver.init_population_lhsの実例で、最も評価が高いものを厳選しています。コード例の評価を行っていただくことで、より質の高いコード例が表示されるようになります。

よく使われるメソッド

表示非表示

DifferentialEvolutionSolver(27)

solve(6)

_unscale_parameters(5)

_best2(4)

_rand1(4)

_scale_parameters(4)

_best1(4)

_randtobest1(4)

_ensure_constraint(4)

_rand2(4)

_promote_lowest_energy(2)

_currenttobest1(2)

init_population_lhs(2)

init_population_random(2)

_calculate_population_energies(1)

_constraint_violation_fn(1)

_select_samples(1)

_calculate_population_feasibilities(1)

converged(1)

init_population_qmc(1)

コード例 #1

ファイルを表示

    def test_population_initiation(self):
        # test the different modes of population initiation

        # init must be either 'latinhypercube' or 'random'
        # raising ValueError is something else is passed in
        assert_raises(ValueError,
                      DifferentialEvolutionSolver,
                      *(rosen, self.bounds),
                      **{'init': 'rubbish'})

        solver = DifferentialEvolutionSolver(rosen, self.bounds)

        # check that population initiation:
        # 1) resets _nfev to 0
        # 2) all population energies are np.inf
        solver.init_population_random()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))

        solver.init_population_lhs()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))

        # we should be able to initialize with our own array
        population = np.linspace(-1, 3, 10).reshape(5, 2)
        solver = DifferentialEvolutionSolver(rosen, self.bounds,
                                             init=population,
                                             strategy='best2bin',
                                             atol=0.01, seed=1, popsize=5)

        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))
        assert_(solver.num_population_members == 5)
        assert_(solver.population_shape == (5, 2))

        # check that the population was initialized correctly
        unscaled_population = np.clip(solver._unscale_parameters(population),
                                      0, 1)
        assert_almost_equal(solver.population[:5], unscaled_population)

        # population values need to be clipped to bounds
        assert_almost_equal(np.min(solver.population[:5]), 0)
        assert_almost_equal(np.max(solver.population[:5]), 1)

        # shouldn't be able to initialize with an array if it's the wrong shape
        # this would have too many parameters
        population = np.linspace(-1, 3, 15).reshape(5, 3)
        assert_raises(ValueError,
                      DifferentialEvolutionSolver,
                      *(rosen, self.bounds),
                      **{'init': population})

コード例 #2

ファイルを表示

ファイル: test__differential_evolution.py プロジェクト: toddrjen/scipy

    def test_population_initiation(self):
        # test the different modes of population initiation

        # init must be either 'latinhypercube' or 'random'
        # raising ValueError is something else is passed in
        assert_raises(ValueError,
                      DifferentialEvolutionSolver,
                      *(rosen, self.bounds),
                      **{'init': 'rubbish'})

        solver = DifferentialEvolutionSolver(rosen, self.bounds)

        # check that population initiation:
        # 1) resets _nfev to 0
        # 2) all population energies are np.inf
        solver.init_population_random()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))

        solver.init_population_lhs()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))

        # we should be able to initialise with our own array
        population = np.linspace(-1, 3, 10).reshape(5, 2)
        solver = DifferentialEvolutionSolver(rosen, self.bounds,
                                             init=population,
                                             strategy='best2bin',
                                             atol=0.01, seed=1, popsize=5)

        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))
        assert_(solver.num_population_members == 5)
        assert_(solver.population_shape == (5, 2))

        # check that the population was initialised correctly
        unscaled_population = np.clip(solver._unscale_parameters(population),
                                      0, 1)
        assert_almost_equal(solver.population[:5], unscaled_population)

        # population values need to be clipped to bounds
        assert_almost_equal(np.min(solver.population[:5]), 0)
        assert_almost_equal(np.max(solver.population[:5]), 1)

        # shouldn't be able to initialise with an array if it's the wrong shape
        # this would have too many parameters
        population = np.linspace(-1, 3, 15).reshape(5, 3)
        assert_raises(ValueError,
                      DifferentialEvolutionSolver,
                      *(rosen, self.bounds),
                      **{'init': population})

コード例 #3

ファイルを表示

ファイル: test__differential_evolution.py プロジェクト: vogali/scipy

    def test_population_initiation(self):
        # test the different modes of population initiation

        # init must be either 'latinhypercube' or 'random'
        # raising ValueError is something else is passed in
        assert_raises(ValueError, DifferentialEvolutionSolver,
                      *(rosen, self.bounds), **{'init': 'rubbish'})

        solver = DifferentialEvolutionSolver(rosen, self.bounds)

        # check that population initiation:
        # 1) resets _nfev to 0
        # 2) all population energies are np.inf
        solver.init_population_random()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))

        solver.init_population_lhs()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))

コード例 #4

ファイルを表示

ファイル: test__differential_evolution.py プロジェクト: alpaco42/ML_Spring_2018

    def test_population_initiation(self):
        # test the different modes of population initiation

        # init must be either 'latinhypercube' or 'random'
        # raising ValueError is something else is passed in
        assert_raises(ValueError,
                      DifferentialEvolutionSolver,
                      *(rosen, self.bounds),
                      **{'init': 'rubbish'})

        solver = DifferentialEvolutionSolver(rosen, self.bounds)

        # check that population initiation:
        # 1) resets _nfev to 0
        # 2) all population energies are np.inf
        solver.init_population_random()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))

        solver.init_population_lhs()
        assert_equal(solver._nfev, 0)
        assert_(np.all(np.isinf(solver.population_energies)))