def test_watershed_pts_3d(self): x = np.arange(10, dtype=float) # generate 3D grid grid = UniformGrid3D(x, x, x) def gauss(coors_xyz, center=[0, 0, 0]): center = np.array(center) return np.exp(-(np.sum((coors_xyz - center)**2 / 30, axis=-1))) value_array = gauss(grid.points, [0, 0, 0]) + gauss( grid.points, [7, 8, 9]) wt_obj = Watershed(grid) wt_obj.search_watershed_pts(value_array) assert wt_obj.n_basins == 2
def test_basin_wts2(self): x = np.linspace(0., 2., 11) n_x = len(x) # generate 3D grid grid = UniformGrid3D(x, x, x) def gauss(coors_xyz, center=[0, 0, 0]): center = np.array(center) return np.exp(-(np.sum((coors_xyz - center)**2, axis=-1))) for _ in range(5): center = np.random.rand(3) * 0.5 value_array = gauss(grid.points, center) + gauss( grid.points, [2., 2., 2.] - center) wt_obj = Watershed(grid) wt_obj.search_watershed_pts(value_array) assert wt_obj.n_basins == 2 basin_wt1 = wt_obj.compute_basin_wts(0) basin_wt2 = wt_obj.compute_basin_wts(1) assert_allclose(basin_wt1 + basin_wt2, np.ones(grid.size)) sum1 = np.sum(basin_wt1 * value_array) sum2 = np.sum(basin_wt2 * value_array) assert_almost_equal(sum1, sum2)
def test_compute_weights_for_watershed_pts(self): x = np.arange(10, dtype=float) # generate 3D grid grid = UniformGrid3D(x, x, x) def gauss(coors_xyz, center=[0, 0, 0]): center = np.array(center) return np.exp(-(np.sum((coors_xyz - center)**2 / 25, axis=-1))) value_array = gauss(grid.points, [0, 0, 0]) + gauss( grid.points, [7, 8, 9]) wt_obj = Watershed(grid) wt_obj.search_watershed_pts(value_array) assert wt_obj.n_basins == 2 # wt_obj.compute_weights_for_all_watershed_pts(value_array) # print(wt_obj.water_basin_wts.toarray()) for i in range(grid.size): basin = wt_obj.basins[i] assert basin != -2 if basin == -1: bs_vals = wt_obj.water_pt_basins[i] wts = wt_obj.water_pt_wts[i] assert len(np.asarray(bs_vals)) == len(np.asarray(wts)) assert_almost_equal(np.sum(np.asarray(bs_vals)), 1)