<<< directory: tests, test files: 1 <<< tests\test_input_linear_elastic_mM.py sfepy: left over: ['verbose', '__builtins__', '_filename', '__file__', 'absolute_import', '__package__', 'TestInput', 'input_name', '__name__', 'output_name', '__doc__'] sfepy: left over: ['get_homog_coefs_linear', 'get_elements', '__builtins__', 'get_homog', 'absolute_import', '__file__', '__doc__', '__name__', 'verbose', 'data_dir', 'nm', 'recover_micro_hook', 'regenerate', '__package__', 'save_recovery_region', '_filename', 'post_process', 'os', 'micro_filename'] >>> test instance prepared (1 test(s)) ... solving ../examples/homogenization/linear_elastic_mM.py... macro: reading mesh [line2, tri3, quad4, tetra4, hexa8] (C:\sfepy\meshes\3d\cylinder.mesh)... macro: ...done in 0.01 s macro: creating regions... macro: Right macro: Omega macro: Recovery macro: Left macro: ...done in 0.03 s macro: equation "balance_of_forces": macro: dw_lin_elastic.i.Omega( solid.D, v, u ) = 0 macro: using solvers: ts: no ts nls: newton ls: ls macro: updating variables... macro: ...done macro: setting up dof connectivities... macro: ...done in 0.00 s macro: matrix shape: (900, 900) macro: assembling matrix graph... macro: ...done in 0.01 s macro: matrix structural nonzeros: 31842 (3.93e-02% fill) macro: updating materials... macro: solid micro: reading mesh [line2, tri3, quad4, tetra4, hexa8] (C:\sfepy\meshes\3d\matrix_fiber.mesh)... micro: ...done in 0.03 s micro: creating regions... micro: Right micro: Ym micro: Bottom micro: Far micro: Corners micro: Yc micro: Near micro: Y micro: Top micro: Left micro: ...done in 0.06 s micro: using solvers: ts: no ts nls: newton ls: ls micro: volume: total = 1.00 >>>