# -*- coding: utf-8 -*- import test_utils DEMO_ID = test_utils.demo_id(__file__) def test_write_summary(): test_utils.assert_summary_contents_by_demo(DEMO_ID) def test_block_part_surfaces_count(): test_utils.assert_part_surfaces_count(DEMO_ID, 'Block', 6) def test_cylinders_part_surfaces_count(): for i in range(1, 10): test_utils.assert_part_surfaces_count(DEMO_ID, 'Cylinder%d' % i, 3) def test_subtract_part_surfaces_count(): test_utils.assert_part_surfaces_count(DEMO_ID, 'Subtract', 15) def test_cell_count(): test_utils.assert_cell_count(DEMO_ID, 161190) def test_scalar_min(): test_utils.assert_scene_min(DEMO_ID, 'Scalar', 'Scalar', 0.0)
# -*- coding: utf-8 -*- import movie import test_utils DEMO_ID = test_utils.demo_id(__file__) MOVIE_FOLDERS = { 'pics_Demo15_Run_DES_Structures': 1254530, 'pics_Demo15_Run_DES_Turbulent_Viscosity_Ratio': 3521478, 'pics_Demo15_Run_DES_Velocity': 2638932, 'pics_Demo15_Run_DES_Wall_Y+': 1937729, } def _grid_des(): return _sim_files()[2] def _grid_ss(): return _sim_files()[0] def _sim_files(): sfs = test_utils.simulations(DEMO_ID) assert len(sfs) == 3, 'Invalid files: %s' % str(sfs) return sfs def _write_movies(): """Write all movies first irrespective of possible failures""" for movie_folder in MOVIE_FOLDERS: