def test_load_dictionary(self): d = self.par.as_dictionary() p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d) assert _id == id(self.par) assert p.name == self.par.name assert p._id_name == self.par._id_name np.testing.assert_equal(p.map['values'][0], 1) np.testing.assert_equal(p.map['std'][0], 0.1) assert p.map['is_set'][0] np.testing.assert_equal(p.value, self.par.value) np.testing.assert_equal(p.std, self.par.std) np.testing.assert_equal(p.free, self.par.free) np.testing.assert_equal(p._bounds, self.par._bounds) rn = np.random.random() np.testing.assert_equal(p.twin_function(rn), self.par.twin_function(rn)) np.testing.assert_equal(p.twin_inverse_function(rn), self.par.twin_inverse_function(rn))
def test_load_dictionary(self): d = self.par.as_dictionary() p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d) nt.assert_equal(_id, id(self.par)) nt.assert_true(p.name == self.par.name) nt.assert_true(p._id_name == self.par._id_name) nt.assert_true(p.map['values'][0] == 1) nt.assert_true(p.map['std'][0] == 0.1) nt.assert_true(p.map['is_set'][0]) nt.assert_true(p.value == self.par.value) nt.assert_true(p.std == self.par.std) nt.assert_true(p.free == self.par.free) nt.assert_true(p._bounds == self.par._bounds) rn = np.random.random() nt.assert_equal(p.twin_function(rn), self.par.twin_function(rn)) nt.assert_equal( p.twin_inverse_function(rn), self.par.twin_inverse_function(rn))
def test_load_dictionary(self): d = self.par.as_dictionary() p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d) assert _id == id(self.par) assert p.name == self.par.name assert p._id_name == self.par._id_name np.testing.assert_equal(p.map['values'][0], 1) np.testing.assert_equal(p.map['std'][0], 0.1) assert p.map['is_set'][0] np.testing.assert_equal(p.value, self.par.value) np.testing.assert_equal(p.std, self.par.std) np.testing.assert_equal(p.free, self.par.free) np.testing.assert_equal(p._bounds, self.par._bounds) rn = np.random.random() np.testing.assert_equal( p.twin_function(rn), self.par.twin_function(rn)) np.testing.assert_equal( p.twin_inverse_function(rn), self.par.twin_inverse_function(rn))
class TestParameterDictionary: def setup_method(self, method): self.par = Parameter() self.par.name = 'asd' self.par._id_name = 'newone' self.par.twin_function_expr = "x * x" self.par.twin_inverse_function_expr = "sqrt(x)" self.par._axes_manager = DummyAxesManager() self.par._create_array() self.par.value = 1 self.par.std = 0.1 self.par.store_current_value_in_array() self.par.ext_bounded = False self.par.ext_force_positive = False def test_to_dictionary(self): d = self.par.as_dictionary() assert d['name'] == self.par.name assert d['_id_name'] == self.par._id_name np.testing.assert_equal(d['map']['values'][0], 1) np.testing.assert_equal(d['map']['std'][0], 0.1) assert d['map']['is_set'][0] np.testing.assert_equal(d['value'], self.par.value) np.testing.assert_equal(d['std'], self.par.std) assert d['free'] is self.par.free assert d['self'] == id(self.par) np.testing.assert_equal(d['_bounds'], self.par._bounds) assert d['ext_bounded'] is self.par.ext_bounded assert ( d['ext_force_positive'] is self.par.ext_force_positive) def test_load_dictionary(self): d = self.par.as_dictionary() p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d) assert _id == id(self.par) assert p.name == self.par.name assert p._id_name == self.par._id_name np.testing.assert_equal(p.map['values'][0], 1) np.testing.assert_equal(p.map['std'][0], 0.1) assert p.map['is_set'][0] np.testing.assert_equal(p.value, self.par.value) np.testing.assert_equal(p.std, self.par.std) np.testing.assert_equal(p.free, self.par.free) np.testing.assert_equal(p._bounds, self.par._bounds) rn = np.random.random() np.testing.assert_equal( p.twin_function(rn), self.par.twin_function(rn)) np.testing.assert_equal( p.twin_inverse_function(rn), self.par.twin_inverse_function(rn)) def test_invalid_name(self): d = self.par.as_dictionary() d['_id_name'] = 'otherone' p = Parameter() p._id_name = 'newone' with pytest.raises(ValueError): _ = p._load_dictionary(d)
class TestParameterDictionary: def setUp(self): self.par = Parameter() self.par.name = 'asd' self.par._id_name = 'newone' def ft(x): return x * x def fit(x): return x * x + 1 self.par.twin_function = ft self.par.twin_inverse_function = fit self.par._axes_manager = DummyAxesManager() self.par._create_array() self.par.value = 1 self.par.std = 0.1 self.par.store_current_value_in_array() self.par.ext_bounded = False self.par.ext_force_positive = False def test_to_dictionary(self): d = self.par.as_dictionary() nt.assert_equal(d['name'], self.par.name) nt.assert_equal(d['_id_name'], self.par._id_name) np.testing.assert_equal(d['map']['values'][0], 1) np.testing.assert_equal(d['map']['std'][0], 0.1) nt.assert_true(d['map']['is_set'][0]) np.testing.assert_equal(d['value'], self.par.value) np.testing.assert_equal(d['std'], self.par.std) nt.assert_is(d['free'], self.par.free) nt.assert_equal(d['self'], id(self.par)) np.testing.assert_equal(d['_bounds'], self.par._bounds) nt.assert_is(d['ext_bounded'], self.par.ext_bounded) nt.assert_is( d['ext_force_positive'], self.par.ext_force_positive) def test_load_dictionary(self): d = self.par.as_dictionary() p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d) nt.assert_equal(_id, id(self.par)) nt.assert_equal(p.name, self.par.name) nt.assert_equal(p._id_name, self.par._id_name) np.testing.assert_equal(p.map['values'][0], 1) np.testing.assert_equal(p.map['std'][0], 0.1) nt.assert_true(p.map['is_set'][0]) np.testing.assert_equal(p.value, self.par.value) np.testing.assert_equal(p.std, self.par.std) np.testing.assert_equal(p.free, self.par.free) np.testing.assert_equal(p._bounds, self.par._bounds) rn = np.random.random() np.testing.assert_equal( p.twin_function(rn), self.par.twin_function(rn)) np.testing.assert_equal( p.twin_inverse_function(rn), self.par.twin_inverse_function(rn)) @nt.raises(ValueError) def test_invalid_name(self): d = self.par.as_dictionary() d['_id_name'] = 'otherone' p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d)
class TestParameterDictionary: def setUp(self): self.par = Parameter() self.par.name = 'asd' self.par._id_name = 'newone' def ft(x): return x * x def fit(x): return x * x + 1 self.par.twin_function = ft self.par.twin_inverse_function = fit self.par._axes_manager = DummyAxesManager() self.par._create_array() self.par.value = 1 self.par.std = 0.1 self.par.store_current_value_in_array() self.par.ext_bounded = False self.par.ext_force_positive = False def test_to_dictionary(self): d = self.par.as_dictionary() nt.assert_true(d['name'] == self.par.name) nt.assert_true(d['_id_name'] == self.par._id_name) nt.assert_true(d['map']['values'][0] == 1) nt.assert_true(d['map']['std'][0] == 0.1) nt.assert_true(d['map']['is_set'][0]) nt.assert_true(d['value'] == self.par.value) nt.assert_true(d['std'] == self.par.std) nt.assert_true(d['free'] == self.par.free) nt.assert_true(d['self'] == id(self.par)) nt.assert_true(d['_bounds'] == self.par._bounds) nt.assert_true(d['ext_bounded'] == self.par.ext_bounded) nt.assert_true( d['ext_force_positive'] == self.par.ext_force_positive) def test_load_dictionary(self): d = self.par.as_dictionary() p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d) nt.assert_equal(_id, id(self.par)) nt.assert_true(p.name == self.par.name) nt.assert_true(p._id_name == self.par._id_name) nt.assert_true(p.map['values'][0] == 1) nt.assert_true(p.map['std'][0] == 0.1) nt.assert_true(p.map['is_set'][0]) nt.assert_true(p.value == self.par.value) nt.assert_true(p.std == self.par.std) nt.assert_true(p.free == self.par.free) nt.assert_true(p._bounds == self.par._bounds) rn = np.random.random() nt.assert_equal(p.twin_function(rn), self.par.twin_function(rn)) nt.assert_equal( p.twin_inverse_function(rn), self.par.twin_inverse_function(rn)) @nt.raises(ValueError) def test_invalid_name(self): d = self.par.as_dictionary() d['_id_name'] = 'otherone' p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d)
class TestParameterDictionary: def setup_method(self, method): self.par = Parameter() self.par.name = 'asd' self.par._id_name = 'newone' self.par.twin_function_expr = "x * x" self.par.twin_inverse_function_expr = "x * x + 1" self.par._axes_manager = DummyAxesManager() self.par._create_array() self.par.value = 1 self.par.std = 0.1 self.par.store_current_value_in_array() self.par.ext_bounded = False self.par.ext_force_positive = False def test_to_dictionary(self): d = self.par.as_dictionary() assert d['name'] == self.par.name assert d['_id_name'] == self.par._id_name np.testing.assert_equal(d['map']['values'][0], 1) np.testing.assert_equal(d['map']['std'][0], 0.1) assert d['map']['is_set'][0] np.testing.assert_equal(d['value'], self.par.value) np.testing.assert_equal(d['std'], self.par.std) assert d['free'] is self.par.free assert d['self'] == id(self.par) np.testing.assert_equal(d['_bounds'], self.par._bounds) assert d['ext_bounded'] is self.par.ext_bounded assert ( d['ext_force_positive'] is self.par.ext_force_positive) def test_load_dictionary(self): d = self.par.as_dictionary() p = Parameter() p._id_name = 'newone' _id = p._load_dictionary(d) assert _id == id(self.par) assert p.name == self.par.name assert p._id_name == self.par._id_name np.testing.assert_equal(p.map['values'][0], 1) np.testing.assert_equal(p.map['std'][0], 0.1) assert p.map['is_set'][0] np.testing.assert_equal(p.value, self.par.value) np.testing.assert_equal(p.std, self.par.std) np.testing.assert_equal(p.free, self.par.free) np.testing.assert_equal(p._bounds, self.par._bounds) rn = np.random.random() np.testing.assert_equal( p.twin_function(rn), self.par.twin_function(rn)) np.testing.assert_equal( p.twin_inverse_function(rn), self.par.twin_inverse_function(rn)) def test_invalid_name(self): d = self.par.as_dictionary() d['_id_name'] = 'otherone' p = Parameter() p._id_name = 'newone' with pytest.raises(ValueError): _id = p._load_dictionary(d)