testing mechanics module with pytest
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import numpy as np
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from damask import mechanics
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class TestMechanics:
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n = 9
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c = np.random.randint(n)
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def test_vectorize_Cauchy(self):
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P = np.random.random((self.n,3,3))
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F = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.Cauchy(F,P)[self.c],
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mechanics.Cauchy(F[self.c],P[self.c]))
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def test_vectorize_strain_tensor(self):
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F = np.random.random((self.n,3,3))
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t = ['V','U'][np.random.randint(0,2)]
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m = np.random.random()*10. -5.0
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assert np.allclose(mechanics.strain_tensor(F,t,m)[self.c],
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mechanics.strain_tensor(F[self.c],t,m))
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def test_vectorize_deviatoric_part(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.deviatoric_part(x)[self.c],
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mechanics.deviatoric_part(x[self.c]))
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def test_vectorize_spherical_part(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.spherical_part(x)[self.c],
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mechanics.spherical_part(x[self.c]))
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def test_vectorize_Mises_stress(self):
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sigma = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.Mises_stress(sigma)[self.c],
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mechanics.Mises_stress(sigma[self.c]))
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def test_vectorize_Mises_strain(self):
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epsilon = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.Mises_strain(epsilon)[self.c],
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mechanics.Mises_strain(epsilon[self.c]))
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def test_vectorize_symmetric(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.symmetric(x)[self.c],
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mechanics.symmetric(x[self.c]))
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def test_vectorize_maximum_shear(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.maximum_shear(x)[self.c],
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mechanics.maximum_shear(x[self.c]))
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def test_vectorize_principal_components(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.principal_components(x)[self.c],
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mechanics.principal_components(x[self.c]))
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def test_vectorize_transpose(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.transpose(x)[self.c],
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mechanics.transpose(x[self.c]))
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def test_vectorize_rotational_part(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.rotational_part(x)[self.c],
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mechanics.rotational_part(x[self.c]))
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def test_vectorize_left_stretch(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.left_stretch(x)[self.c],
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mechanics.left_stretch(x[self.c]))
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def test_vectorize_right_stretch(self):
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.right_stretch(x)[self.c],
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mechanics.right_stretch(x[self.c]))
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def test_Cauchy(self):
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"""Ensure Cauchy stress is symmetrized 1. Piola-Kirchhoff stress for no deformation."""
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P = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.Cauchy(np.broadcast_to(np.eye(3),(self.n,3,3)),P),
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mechanics.symmetric(P))
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def test_strain_tensor_no_rotation(self):
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"""Ensure that left and right stretch give same results for no rotation."""
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F = np.broadcast_to(np.eye(3),[self.n,3,3])*np.random.random((self.n,3,3))
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m = np.random.random()*20.0-10.0
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assert np.allclose(mechanics.strain_tensor(F,'U',m),
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mechanics.strain_tensor(F,'V',m))
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def test_strain_tensor_rotation(self):
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"""Ensure that pure rotation results in no strain."""
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F = mechanics.rotational_part(np.random.random((self.n,3,3)))
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t = ['V','U'][np.random.randint(0,2)]
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m = np.random.random()*2.0 - 1.0
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assert np.allclose(mechanics.strain_tensor(F,t,m),
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0.0)
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def test_spherical_deviatoric_part(self):
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"""Ensure that full tensor is sum of spherical and deviatoric part."""
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x = np.random.random((self.n,3,3))
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sph = np.broadcast_to(np.eye(3),(self.n,3,3))\
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* np.repeat(mechanics.spherical_part(x),9).reshape(self.n,3,3)
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assert np.allclose(sph + mechanics.deviatoric_part(x),
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x)
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def test_symmetric(self):
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"""Ensure that a symmetric tensor is half of the sum of a tensor and its transpose."""
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x = np.random.random((self.n,3,3))
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assert np.allclose(mechanics.symmetric(x)*2.0,
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mechanics.transpose(x)+x)
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def test_transpose(self):
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"""Ensure that a symmetric tensor equals its transpose."""
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x = mechanics.symmetric(np.random.random((self.n,3,3)))
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assert np.allclose(mechanics.transpose(x),
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x)
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