-230, -300, ], [880, 130, -300]]), 'k', 30), (np.array([[ 880, -230, -320, ], [880, 130, -320]]), 'k', 30), (np.array([[ 895, 15, -335, ], [895, 290, -90]]), (229, 191, 80), 100), (np.array([[ 895, 15, -335, ], [635, 290, -335]]), (229, 191, 80), 100), # (np.array([[0,-250,0,],[0,134,0]]),'r'), ] for probe_points in probes: scene.add_probe_from_coordinates(ccf_shape + probe_points[0], color=probe_points[1], radius=probe_points[2]) # path = '/Users/danieljdenman/Academics/grants/20200602_r01BRAIN/figs/' # filename = 'br'+len(glob.glob(os.path.join(path,'br*')))+'.png' # scene.export_for_web(os.path.join(path,filename)) scene.render()
(np.array([[ 895, 15, -335, ], [895, 290, -90]]), (229, 191, 80), 100), #probe1 (np.array([[ 895, 15, -335, ], [635, 290, -335]]), (229, 191, 80), 100), #probe2 (np.array([[ 950, -60, -305, ], [850, 290, -330]]), (229, 191, 80), 100), #probe3 # (np.array([[0,-250,0,],[0,134,0]]),'r'), ] center_point_adjust = np.array([-160, 340, -80]) for probe_points in probes: scene.add_probe_from_coordinates(ccf_shape + probe_points[0] + center_point_adjust, color=probe_points[1], radius=probe_points[2]) # path = '/Users/danieljdenman/Academics/grants/20200602_r01BRAIN/figs/' # filename = 'br'+len(glob.glob(os.path.join(path,'br*')))+'.png' # scene.export_for_web(os.path.join(path,filename)) scene.render()