Ejemplo n.º 1
0
    def set_stim_size(s):
        global stim, stimI, stimSpikeSyncer
        newStim = copy.deepcopy(stim)
        newStim.size_x = s
        newStim.size_y = s
        i = stimSpikeSyncer.find_stim(newStim)
        if i != -1:
            stimI = i
            stim = stimSpikeSyncer.stimList[i]
            get_spikes()

    atb.init()
    # global bar
    bar = atb.Bar(name="Controls",
                  label="Controls",
                  help="Scene controls",
                  position=(10, 10),
                  size=(200, 320))
    # channel = ct.c_int(1)
    # stim_id = ct.c_int(1)
    # stim_x = ct.c_float(1)
    # stim_y = ct.c_float(1)
    # stim_size = ct.c_int(1)
    bar.add_var("Channel",
                getter=get_channel,
                setter=set_channel,
                vtype=ct.c_int)
    bar.add_var("Stim/I", getter=get_stim_i, setter=set_stim_i, vtype=ct.c_int)
    bar.add_var("Stim/Name",
                getter=get_stim_name,
                setter=set_stim_name,
Ejemplo n.º 2
0
    def __init__(self, c):

        self.controller = c
        self.tracker_view = TrackerView()

        self.gui_frame_rate = 0.0

        self.n_frames = 0
        self.frame_count = 0
        self.frame_rate_accum = 0.0
        self.frame_rates = []
        self.start_time = None
        self.last_time = 0
        self.last_update_time = time.time()
        self.update_interval = 1 / 10000.

        atb.init()

        # Try grabbing current Width x Height for window to draw:
        # W = self.controller.get_camera_attribute('Width')
        # H = self.controller.get_camera_attribute('Height')
        # print "DEFINING WINDOW!!!! " + str(W) + ", " + str(H)
        self.window = glumpy.Window(656, 492)  # (900, 700)

        # ---------------------------------------------------------------------
        #   STAGE CONTROLS
        # ---------------------------------------------------------------------

        self.stages_bar = atb.Bar(
            name='stages',
            label='Stage Controls',
            iconified='true',
            help='Controls for adjusting stages',
            position=(10, 10),
            size=(200, 300),
        )

        self.stages_bar.add_var('X/x_set',
                                label='set value',
                                target=c,
                                attr='x_set')
        self.stages_bar.add_button('go_rel_x',
                                   lambda: c.go_rel_x(),
                                   group='X',
                                   label='move relative')
        self.stages_bar.add_button('go_abs_x',
                                   lambda: c.go_x(),
                                   group='X',
                                   label='move absolute')

        self.stages_bar.add_var('Y/y_set',
                                label='set value',
                                target=c,
                                attr='y_set')
        self.stages_bar.add_button('go_rel_y',
                                   lambda: c.go_rel_y(),
                                   group='Y',
                                   label='move relative')
        self.stages_bar.add_button('go_abs_y',
                                   lambda: c.go_y(),
                                   group='Y',
                                   label='move absolute')

        self.stages_bar.add_var('R/r_set',
                                label='set value',
                                target=c,
                                attr='r_set')
        self.stages_bar.add_button('go_rel_r',
                                   lambda: c.go_rel_r(),
                                   group='R',
                                   label='move relative')
        self.stages_bar.add_button('go_abs_r',
                                   lambda: c.go_r(),
                                   group='R',
                                   label='move absolute')

        self.stages_bar.add_button('up',
                                   lambda: c.up(),
                                   group='Jog',
                                   label='up')
        self.stages_bar.add_button('down',
                                   lambda: c.down(),
                                   group='Jog',
                                   label='down')
        self.stages_bar.add_button('left',
                                   lambda: c.left(),
                                   group='Jog',
                                   label='left')

        self.stages_bar.add_button('right',
                                   lambda: c.right(),
                                   group='Jog',
                                   label='right')

        # ---------------------------------------------------------------------
        #   FOCUS AND ZOOM CONTROLS
        # ---------------------------------------------------------------------

        self.focus_zoom_bar = atb.Bar(
            name='focus_and_zoom',
            label='Focus/Zoom Controls',
            iconified='true',
            help='Controls for adjusting power focus and zoom',
            position=(10, 10),
            size=(200, 300),
        )

        self.focus_zoom_bar.add_var('Focus/focus_step',
                                    label='focus step',
                                    target=c,
                                    attr='focus_step')
        self.focus_zoom_bar.add_button('focus_plus',
                                       lambda: c.focus_plus(),
                                       group='Focus',
                                       label='focus plus')
        self.focus_zoom_bar.add_button('focus_minus',
                                       lambda: c.focus_minus(),
                                       group='Focus',
                                       label='focus minus')

        self.focus_zoom_bar.add_var('Zoom/zoom_step',
                                    label='zoom step',
                                    target=c,
                                    attr='zoom_step')
        self.focus_zoom_bar.add_button('zoom_plus',
                                       lambda: c.zoom_plus(),
                                       group='Zoom',
                                       label='zoom plus')
        self.focus_zoom_bar.add_button('zoom_minus',
                                       lambda: c.zoom_minus(),
                                       group='Zoom',
                                       label='zoom minus')

        # ---------------------------------------------------------------------
        #   LED CONTROLS
        # ---------------------------------------------------------------------

        self.led_bar = atb.Bar(
            name='leds',
            label='LED Controls',
            iconified='true',
            help='Controls for adjusting illumination',
            position=(20, 20),
            size=(200, 180),
        )

        self.led_bar.add_var(
            'Side/Ch1_mA',
            #target=c,
            #attr='IsetCh1',
            label='I Ch1 (mA)',
            vtype=atb.TW_TYPE_UINT32,
            setter=lambda x: c.led_set_current(1, x),
            getter=lambda: c.led_soft_current(1),
            min=0,
            max=1000,
        )

        self.led_bar.add_var('Side/Ch1_status',
                             label='Ch1 status',
                             vtype=atb.TW_TYPE_BOOL8,
                             getter=lambda: c.led_soft_status(1),
                             setter=lambda x: c.led_set_status(1, x))

        self.led_bar.add_var(
            'Top/Ch2_mA',
            #target=c,
            #attr='IsetCh2',
            label='I Ch2 (mA)',
            vtype=atb.TW_TYPE_UINT32,
            setter=lambda x: c.led_set_current(2, x),
            getter=lambda: c.led_soft_current(2),
            min=0,
            max=1000,
        )
        self.led_bar.add_var('Top/Ch2_status',
                             vtype=atb.TW_TYPE_BOOL8,
                             getter=lambda: c.led_soft_status(2),
                             setter=lambda x: c.led_set_status(2, x))

        # --------------------------------------------------------------------
        #   GUI
        # --------------------------------------------------------------------

        self.gui_bar = atb.Bar(
            name='GUI',
            label='GUI',
            iconified='true',
            help='GUI Status',
            position=(60, 60),
            size=(200, 180),
        )

        self.gui_bar.add_var('gui_framerate',
                             label='gui frame rate',
                             vtype=atb.TW_TYPE_FLOAT,
                             min=1,
                             max=200,
                             step=0.1,
                             readonly=True,
                             getter=lambda: float(self.gui_frame_rate))

        # --------------------------------------------------------------------
        #   CAMERA
        # --------------------------------------------------------------------

        self.cam_bar = atb.Bar(
            name='Camera',
            label='Camera',
            iconified='true',
            help='Camera acquisition parameters',
            position=(60, 60),
            size=(200, 180),
        )

        self.cam_bar.add_var(
            'Recording/status',
            label='REC',
            vtype=atb.TW_TYPE_UINT32,
            getter=lambda: c.get_recording_status('recording'),
            setter=lambda x: c.set_recording_status('recording', int(x)),
            #attr='recording',
        )

        self.cam_bar.add_var(
            'Recording/name',
            label='name',
            vtype=atb.TW_TYPE_CDSTRING,
            getter=lambda: c.get_recording_name('subname'),
            setter=lambda x: c.set_recording_name(str(x)),
            #attr='recording',
        )

        PixelFormat = atb.enum('PixelFormat', {
            'Mono8': 0,
            'Mono12Packed': 1,
            'Mono16': 2
        })

        self.cam_bar.add_var(
            'PixelFormat',
            label='pixel format',
            vtype=PixelFormat,
            getter=lambda: c.get_pixel_format('PixelFormat'),
            setter=lambda x: c.set_pixel_format('PixelFormat', int(x)),
        )

        self.cam_bar.add_var(
            'BytesPerFrame',
            label='total bytes per frame',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=645504,
            step=1,
            getter=lambda: c.get_camera_attribute('TotalBytesPerFrame'),
            # setter=lambda x: c.set_camera_attribute('BinningX', int(x)),
        )

        self.cam_bar.add_var(
            'framerate',
            label='frame rate',
            vtype=atb.TW_TYPE_FLOAT,
            min=1,
            max=125,
            step=0.1,
            readonly=True,
            getter=lambda: float(c.get_frame_rate()),
        )

        self.cam_bar.add_var(
            'Binning/binningX',
            label='binning X',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=4,
            step=1,
            getter=lambda: c.get_camera_attribute('BinningX'),
            setter=lambda x: c.set_camera_attribute('BinningX', int(x)),
        )

        self.cam_bar.add_var(
            'Binning/binningY',
            label='binning Y',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=4,
            step=1,
            getter=lambda: c.get_camera_attribute('BinningY'),
            setter=lambda x: c.set_camera_attribute('BinningY', int(x)),
        )

        ExposureMode = atb.enum('ExposureMode', {
            'Manual': 0,
            'AutoOnce': 1,
            'Auto': 2
        })

        self.cam_bar.add_var(
            'Exposure/mode',
            label='mode',
            vtype=ExposureMode,
            getter=lambda: c.get_exposure_mode('ExposureMode'),
            setter=lambda x: c.set_exposure_mode('ExposureMode', int(x)),
        )

        self.cam_bar.add_var(
            'Exposure/value',
            label='time (us)',
            vtype=atb.TW_TYPE_UINT32,
            min=0,
            max=150000,
            step=1,
            getter=lambda: c.get_camera_attribute('ExposureValue'),
            setter=lambda x: c.set_camera_attribute('ExposureValue', int(x)),
        )

        self.cam_bar.add_var(
            'gain',
            label='Gain',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=50,
            step=1,
            #target=c,
            getter=lambda: c.get_camera_attribute('GainValue'),
            setter=lambda x: c.set_camera_attribute('GainValue', int(x)),
            attr='gain',
        )

        # self.cam_bar.add_var(
        #     'exposure',
        #     label='exposure',
        #     vtype=atb.TW_TYPE_UINT32,
        #     min=5000,
        #     max=30000,
        #     step=1000,
        #     target=c,
        #     attr='exposure',
        #     )

        self.cam_bar.add_var(
            'ROI/roi_width',
            label='width',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=656,  #656,
            step=1,
            #target=c,
            getter=lambda: c.get_camera_attribute('Width'),
            setter=lambda x: c.set_camera_attribute('Width', int(x)),
            attr='roi_width',
        )

        self.cam_bar.add_var(
            'ROI/roi_height',
            label='height',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=492,  #492,
            step=1,
            #target=c,
            getter=lambda: c.get_camera_attribute('Height'),
            setter=lambda x: c.set_camera_attribute('Height', int(x)),
            attr='roi_height',
        )

        # self.cam_bar.add_var(
        #     'ROI/roi_offset_x',
        #     label='offset x',
        #     vtype=atb.TW_TYPE_UINT32,
        #     min=0,
        #     max=800,
        #     step=1,
        #     target=c,
        #     attr='roi_offset_x',
        #     )

        # self.cam_bar.add_var(
        #     'ROI/roi_offset_y',
        #     label='offset y',
        #     vtype=atb.TW_TYPE_UINT32,
        #     min=0,
        #     max=800,
        #     step=1,
        #     target=c,
        #     attr='roi_offset_y',
        #     )

        # Event Handlers
        def on_init():
            self.tracker_view.prepare_opengl()

        def on_draw():
            self.tracker_view.draw((self.window.width, self.window.height))

        def on_idle(dt):
            self.update_tracker_view()
            # time.sleep(0.05)

        def on_key_press(symbol, modifiers):
            if symbol == glumpy.key.ESCAPE:
                c.stop_continuous_acquisition()
                print "Controller has %i refs" % sys.getrefcount(c)
                c.release()
                self.controller = None
                print "Controller has %i refs" % sys.getrefcount(c)
                c.shutdown()
                #print "Shutting down controller..."
                #print "Shut down controller", c.shutdown()
                #c.continuously_acquiring = False
                #c.acq_thread.join()
                sys.exit()

        self.window.push_handlers(atb.glumpy.Handlers(self.window))
        self.window.push_handlers(on_init, on_draw, on_key_press, on_idle)
        self.window.draw()
Ejemplo n.º 3
0
    def setup_atb(self):
        atb.init()
        self.bar = atb.Bar(name="Controls",
                           label="Controls",
                           help="Scene controls",
                           color=(50, 50, 50),
                           alpha=50,
                           text='light',
                           position=(10, 10),
                           size=(200, 440))

        self.bar.add_var("World/Zoom",
                         step=0.01,
                         min=0.01,
                         max=1.0,
                         getter=self.trackball._get_zoom,
                         setter=self.trackball._set_zoom)

        self.bar.add_var("World/Distance",
                         step=1,
                         min=1,
                         max=300,
                         getter=self.trackball._get_distance,
                         setter=self.trackball._set_distance)
        self.bar.add_var("World/Show_World",
                         self.tb_show,
                         help="Show/Hide Trackball Camera")

        self.bar.add_separator("")
        self.bar.add_var("Eye/Show_Eye",
                         self.eye_show,
                         help="Show/Hide Eye Camera")
        self.bar.add_var("Eye/Camera",
                         step=1,
                         min=0,
                         max=self.camera_manager.get_num_cams() - 1,
                         getter=self.eye._get_current,
                         setter=self._set_current_camera,
                         key="SPACE")

        self.bar.add_separator("")
        self.bar.add_var("Image/Scale",
                         step=0.00001,
                         min=0.00001,
                         getter=self.camera_manager.get_img_scale,
                         setter=self.camera_manager.set_img_scale)
        self.bar.add_button("Show_Images",
                            self.camera_manager.pyramid_show,
                            key="1",
                            help="Show All Images")
        self.bar.add_button("Hide_Images",
                            self.camera_manager.pyramid_hide,
                            key="2",
                            help="Hide All Images")
        self.bar.add_button("Show_Cones",
                            self.camera_manager.cone_show,
                            key="3",
                            help="Show All Fixation Cones")
        self.bar.add_button("Hide_Cones",
                            self.camera_manager.cone_hide,
                            key="4",
                            help="Hide All Images")

        self.bar.add_separator("")
        self.bar.add_var("Points/Show_Points",
                         self.points_show,
                         key="RETURN",
                         help="Show/Hide Points")
        self.bar.add_var("Points/Size",
                         step=0.5,
                         min=1.0,
                         max=20.0,
                         getter=self.point_manager._get_scale,
                         setter=self.point_manager._set_scale)
        self.bar.add_button("Square Point",
                            self.point_manager._make_square,
                            key="9",
                            help="Render square points")
        self.bar.add_button("Circular Point",
                            self.point_manager._make_smooth,
                            key="0",
                            help="Render smooth points")

        self.bar.add_separator("")
        self.bar.add_var("Background/Color", self.color, open=False)
        self.bar.add_separator("")
        self.bar.add_var("Background/Fullscreen",
                         self.full,
                         help="Fullscreen mode for presentation")
        self.bar.add_button("Quit",
                            self.quit,
                            key="ESCAPE",
                            help="Quit application")
Ejemplo n.º 4
0
    def __init__(self, c):

        self.controller = c
        self.tracker_view = TrackerView()

        self.show_feature_map = c_bool(False)
        self.display_starburst = c_bool(False)
        self.n_frames = 0
        self.frame_count = 0
        self.frame_rate_accum = 0.0
        self.frame_rates = []
        self.start_time = None
        self.last_time = 0
        self.last_update_time = time.time()

        self.calibration_file = ''

        atb.init()
        self.window = glumpy.Window(900, 600)
        self.window.draw()

        self.gaze_bar = atb.Bar(name='gaze',
                                label='Gaze Info',
                                iconified='false',
                                help='Current Gaze',
                                position=(10, 10),
                                size=(100, 200))

        # self.gaze_bar.add_var('Gaze/Status', label='Calibration Status',
        #                     target=c, attr='calibration_status', readonly=True)
        self.gaze_bar.add_var('Gaze/H',
                              label='Horizontal Gaze',
                              target=c,
                              attr='gaze_azimuth',
                              readonly=True)
        self.gaze_bar.add_var('Gaze/V',
                              label='Vertical Gaze',
                              target=c,
                              attr='gaze_elevation',
                              readonly=True)
        # self.gaze_bar.add_var('FPS', label='FPS', target=c,
        #                     attr='conduit_fps', readonly=True)

        # ---------------------------------------------------------------------
        #   STAGE CONTROLS
        # ---------------------------------------------------------------------

        # self.stages_bar = atb.Bar(
        #     name='stages',
        #     label='Stage Controls',
        #     iconified='true',
        #     help='Controls for adjusting stages',
        #     position=(10, 10),
        #     size=(200, 300),
        #     )

        # self.stages_bar.add_var('X/x_set', label='set value', target=c,
        #                         attr='x_set')
        # self.stages_bar.add_button('go_rel_x', lambda: c.go_rel_x(), group='X',
        #                            label='move relative')
        # self.stages_bar.add_button('go_abs_x', lambda: c.go_x(), group='X',
        #                            label='move absolute')

        # self.stages_bar.add_var('Y/y_set', label='set value', target=c,
        #                         attr='y_set')
        # self.stages_bar.add_button('go_rel_y', lambda: c.go_rel_y(), group='Y',
        #                            label='move relative')
        # self.stages_bar.add_button('go_abs_y', lambda: c.go_y(), group='Y',
        #                            label='move absolute')

        # self.stages_bar.add_var('R/r_set', label='set value', target=c,
        #                         attr='r_set')
        # self.stages_bar.add_button('go_rel_r', lambda: c.go_rel_r(), group='R',
        #                            label='move relative')
        # self.stages_bar.add_button('go_abs_r', lambda: c.go_r(), group='R',
        #                            label='move absolute')

        # self.stages_bar.add_button('up', lambda: c.up(), group='Jog',
        #                            label='up')
        # self.stages_bar.add_button('down', lambda: c.down(), group='Jog',
        #                            label='down')
        # self.stages_bar.add_button('left', lambda: c.left(), group='Jog',
        #                            label='left')

        # self.stages_bar.add_button('right', lambda: c.right(), group='Jog',
        #                            label='right')

        # ---------------------------------------------------------------------
        #   FOCUS AND ZOOM CONTROLS
        # ---------------------------------------------------------------------

        # self.focus_zoom_bar = atb.Bar(
        #     name='focus_and_zoom',
        #     label='Focus/Zoom Controls',
        #     iconified='true',
        #     help='Controls for adjusting power focus and zoom',
        #     position=(10, 10),
        #     size=(200, 300),
        #     )

        # self.focus_zoom_bar.add_var('Focus/focus_step', label='focus step',
        #                             target=c, attr='focus_step')
        # self.focus_zoom_bar.add_button('focus_plus', lambda: c.focus_plus(),
        #                                group='Focus', label='focus plus')
        # self.focus_zoom_bar.add_button('focus_minus', lambda: c.focus_minus(),
        #                                group='Focus', label='focus minus')

        # self.focus_zoom_bar.add_var('Zoom/zoom_step', label='zoom step',
        #                             target=c, attr='zoom_step')
        # self.focus_zoom_bar.add_button('zoom_plus', lambda: c.zoom_plus(),
        #                                group='Zoom', label='zoom plus')
        # self.focus_zoom_bar.add_button('zoom_minus', lambda: c.zoom_minus(),
        #                                group='Zoom', label='zoom minus')

        # ---------------------------------------------------------------------
        #   LED CONTROLS
        # ---------------------------------------------------------------------

        # self.led_bar = atb.Bar(
        #     name='leds',
        #     label='LED Controls',
        #     iconified='true',
        #     help='Controls for adjusting illumination',
        #     position=(20, 20),
        #     size=(200, 180),
        #     )

        # self.led_bar.add_var(
        #     'Side/Ch1_mA',
        #     #target=c,
        #     #attr='IsetCh1',
        #     label='I Ch1 (mA)',
        #     vtype=atb.TW_TYPE_UINT32,
        #     setter=lambda x: c.leds.set_current(1, x),
        #     getter=lambda: c.leds.soft_current(1),
        #     min=0,
        #     max=1000,
        #     )

        # self.led_bar.add_var('Side/Ch1_status', label='Ch1 status',
        #                      vtype=atb.TW_TYPE_BOOL8,
        #                      getter=lambda: c.leds.soft_status(1),
        #                      setter=lambda x: c.leds.set_status(1, x))

        # self.led_bar.add_var(
        #     'Top/Ch2_mA',
        #     #target=c,
        #     #attr='IsetCh2',
        #     label='I Ch2 (mA)',
        #     vtype=atb.TW_TYPE_UINT32,
        #     setter=lambda x: c.leds.set_current(2, x),
        #     getter=lambda: c.leds.soft_current(2),
        #     min=0,
        #     max=1000,
        #     )
        # self.led_bar.add_var('Top/Ch2_status', vtype=atb.TW_TYPE_BOOL8,
        #                      getter=lambda: c.leds.soft_status(2),
        #                      setter=lambda x: c.leds.set_status(2, x))

        #self.led_bar.add_var(
        #    'Channel3/Ch3_mA',
        #    target=c,
        #    attr='IsetCh3',
        #    label='I Ch3 (mA)',
        #    setter=lambda x: c.leds.set_current(3,x),
        #    min=0,
        #    max=250,
        #    )
        # self.led_bar.add_var('Channel3/Ch3_status', label='Ch3 status',
        #                              vtype=atb.TW_TYPE_BOOL8,
        #                              getter=lambda: c.leds.soft_status(3),
        #                              setter=lambda x: c.leds.set_status(3, x))
        #
        #         self.led_bar.add_var(
        #             'Channel4/Ch4_mA',
        #             target=c,
        #             attr='IsetCh4',
        #             label='I Ch4 (mA)',
        #             setter=lambda x: c.leds.set_current(4,x),
        #             min=0,
        #             max=250,
        #             )
        #         self.led_bar.add_var('Channel4/Ch4_status', label='Ch4 status',
        #                              vtype=atb.TW_TYPE_BOOL8,
        #                              getter=lambda: c.leds.soft_status(4),
        #                              setter=lambda x: c.leds.set_status(4, x))

        # ---------------------------------------------------------------------
        #   RADIAL FEATURE FINDER
        # ---------------------------------------------------------------------
        if True:
            radial_ff = c.radial_ff

            self.radial_ff_bar = atb.Bar(
                name='RadialFF',
                label='Radial Symmetry',
                help='Parameters for initial (symmetry-based) image processing',
                iconified='true',
                position=(30, 30),
                size=(250, 180),
            )

            self.radial_ff_bar.add_var(
                'target_kpixels',
                label='Target kPixels',
                vtype=atb.TW_TYPE_FLOAT,
                min=50.,
                max=1000.,
                step=10.,
                target=radial_ff,
                attr='target_kpixels',
            )
            self.radial_ff_bar.add_var(
                'min_radius_fraction',
                label='Min. radius (fraction)',
                vtype=atb.TW_TYPE_FLOAT,
                min=0.01,
                max=0.5,
                step=0.01,
                target=radial_ff,
                attr='min_radius_fraction',
            )
            self.radial_ff_bar.add_var(
                'max_radius_fraction',
                label='Max. radius (fraction)',
                vtype=atb.TW_TYPE_FLOAT,
                min=0.1,
                max=0.8,
                step=0.01,
                target=radial_ff,
                attr='max_radius_fraction',
            )
            self.radial_ff_bar.add_var(
                'radius_steps',
                label='Radius steps',
                vtype=atb.TW_TYPE_UINT32,
                min=1,
                max=10,
                step=1,
                target=radial_ff,
                attr='radius_steps',
            )
            self.radial_ff_bar.add_var(
                'alpha',
                label='Alpha',
                vtype=atb.TW_TYPE_FLOAT,
                min=1.,
                max=50.,
                step=1.,
                target=radial_ff,
                attr='alpha',
            )

            self.radial_ff_bar.add_var('show_transform',
                                       label='Show Transform',
                                       vtype=atb.TW_TYPE_BOOL8,
                                       target=self,
                                       attr='show_feature_map')

            self.radial_ff_bar.add_var('Albino/albino_mode_enable',
                                       label='Mode Enabled',
                                       vtype=atb.TW_TYPE_BOOL8,
                                       target=radial_ff,
                                       attr='albino_mode')
            self.radial_ff_bar.add_var(
                'Albino/albino_threshold',
                label='Threshold',
                vtype=atb.TW_TYPE_FLOAT,
                min=0.1,
                max=50.,
                step=1.,
                target=radial_ff,
                attr='albino_threshold',
            )

            self.radial_ff_bar.add_var(
                'RestrictRegion/top',
                label='top',
                vtype=atb.TW_TYPE_UINT32,
                min=0,
                max=300,
                step=1,
                target=radial_ff,
                attr='restrict_top',
            )
            self.radial_ff_bar.add_var(
                'RestrictRegion/left',
                label='left',
                vtype=atb.TW_TYPE_UINT32,
                min=0,
                max=300,
                step=1,
                target=radial_ff,
                attr='restrict_left',
            )

            self.radial_ff_bar.add_var(
                'RestrictRegion/right',
                label='right',
                vtype=atb.TW_TYPE_UINT32,
                min=0,
                max=300,
                step=1,
                target=radial_ff,
                attr='restrict_right',
            )

            self.radial_ff_bar.add_var(
                'RestrictRegion/bottom',
                label='bottom',
                vtype=atb.TW_TYPE_UINT32,
                min=0,
                max=300,
                step=1,
                target=radial_ff,
                attr='restrict_bottom',
            )

            # ---------------------------------------------------------------------
            #   STARBURST FEATURE FINDER
            # ---------------------------------------------------------------------

            self.sb_ff_bar = atb.Bar(
                name='StarburstFF',
                label='Starburst',
                iconified='true',
                help=
                "Parameters for the refinement phase ('starburst') image processing",
                position=(40, 40),
                size=(200, 250),
            )

            sb_ff = c.starburst_ff

            self.sb_ff_bar.add_var(
                'Pupil/n_pupil_rays',
                label='n rays',
                vtype=atb.TW_TYPE_UINT32,
                min=1,
                max=100,
                step=1,
                target=sb_ff,
                attr='pupil_n_rays',
            )

            self.sb_ff_bar.add_var(
                'Pupil/pupil_min_radius',
                label='min radius',
                vtype=atb.TW_TYPE_UINT32,
                min=1,
                max=100,
                step=1,
                target=sb_ff,
                attr='pupil_min_radius',
            )

            self.sb_ff_bar.add_var(
                'Pupil/pupil_threshold',
                label='edge detect threshold',
                vtype=atb.TW_TYPE_FLOAT,
                min=0.1,
                max=5.0,
                step=0.1,
                target=sb_ff,
                attr='pupil_threshold',
            )

            self.sb_ff_bar.add_var(
                'CR/n_cr_rays',
                label='n rays',
                vtype=atb.TW_TYPE_UINT32,
                min=1,
                max=100,
                step=1,
                target=sb_ff,
                attr='cr_n_rays',
            )

            self.sb_ff_bar.add_var(
                'CR/cr_min_radius',
                label='min radius',
                vtype=atb.TW_TYPE_UINT32,
                min=1,
                max=100,
                step=1,
                target=sb_ff,
                attr='cr_min_radius',
            )

            self.sb_ff_bar.add_var(
                'CR/cr_threshold',
                label='edge detect threshold',
                vtype=atb.TW_TYPE_FLOAT,
                min=0.1,
                max=5.0,
                step=0.1,
                target=sb_ff,
                attr='cr_threshold',
            )

            fit_algos = {
                0: 'circle_least_squares',
                1: 'circle_least_squares_ransac',
                2: 'ellipse_least_squares'
            }

            fit_algos_rev = dict([(val, key)
                                  for (key, val) in fit_algos.items()])

            FittingAlgorithm = atb.enum('FittingAlgorithm', {
                'circle lst sq': 0,
                'circle ransac': 1,
                'ellipse lst sq': 2
            })
            self.sb_ff_bar.add_var('Fitting/circle_fit', label='circle fit method',
                                   vtype=FittingAlgorithm, getter=lambda: \
                                   fit_algos_rev[sb_ff.fitting_algorithm],
                                   setter=lambda x: \
                                   setattr(sb_ff, 'fitting_algorithm', fit_algos[x]))

            self.sb_ff_bar.add_var('Display/show_rays', self.display_starburst)

        # ---------------------------------------------------------------------
        #   CALIBRATION
        # ---------------------------------------------------------------------
        # self.cal_bar = atb.Bar(
        #     name='Calibration',
        #     label='Calibration',
        #     iconified='true',
        #     help='Auto-calibration steps',
        #     position=(50, 50),
        #     size=(250, 300),
        #     refresh=0.5
        #     )

        # self.cal_bar.add_button('calibrate', lambda: c.calibrate(),
        #                         label='Calibrate (full)')

        # self.cal_bar.add_separator('Sub-phases')
        # self.cal_bar.add_button('cal_center_h', lambda: \
        #                         c.calibrate_center_horizontal(),
        #                         label='Center Horizontal')
        # self.cal_bar.add_button('cal_center_v', lambda: \
        #                         c.calibrate_center_vertical(),
        #                         label='Center Vertical')
        # self.cal_bar.add_button('cal_center_d', lambda: \
        #                         c.calibrate_center_depth(), label='Center Depth'
        #                         )

        # self.cal_bar.add_button('cal_pupil_rad', lambda: \
        #                         c.calibrate_find_pupil_radius(),
        #                         label='Find Pupil Radius')

        # self.cal_bar.add_separator('Info')
        # self.cal_bar.add_var('d', label='Distance to CR curv. center',
        #                      vtype=atb.TW_TYPE_FLOAT, target=c.calibrator,
        #                      attr='d')  # readonly = True,
        # self.cal_bar.add_var('Rp', label='Pupil rotation radius (Rp)[mm]',
        #                      vtype=atb.TW_TYPE_FLOAT, target=c.calibrator,
        #                      attr='Rp_mm')  # readonly = True,

        # # Calibration Files
        # try:
        #     self.refresh_calibration_file_list()

        #     self.cal_bar.add_separator('Calibration Files')

        #     self.cal_bar.add_var('current_calibration_file',
        #                          vtype=self.cal_enum, label='Calibration File',
        #                          getter=lambda: \
        #                          self.get_calibration_file_atb(),
        #                          setter=lambda x: \
        #                          self.set_calibration_file_atb(x))
        #                           # setter = lambda x: sb_ff.__dict__.__setitem__('fitting_algorithm', fit_algos[x]))
        #                           # getter=lambda: self.get_calibration_file_atb,
        #                           # setter=lambda x: self.set_calibration_file_atb(x))

        #     self.cal_bar.add_separator('Calibration Save')
        #     self.cal_file_save_name = ctypes.c_char_p('')

        #     self.cal_bar.add_var('calibration_file_save_name',
        #                          vtype=atb.TW_TYPE_CDSTRING, target=self,
        #                          attr='cal_file_save_name')
        #     self.cal_bar.add_button('save_calibration', lambda: \
        #                             self.save_calibration_file_atb(self.cal_file_save_name))
        # except Exception as E:
        #     logging.warning("Error setting calibration file list: %s" % E)
        #     logging.warning("""Unable to use calibration-file saving
        #                        infrastructure.  A patched version of glumpy
        #                        is required to enable this feature.""")

        # --------------------------------------------------------------------
        #   CAMERA
        # --------------------------------------------------------------------

        self.cam_bar = atb.Bar(
            name='Camera',
            label='Camera',
            iconified='true',
            help='Camera acquisition parameters',
            position=(60, 60),
            size=(200, 180),
        )

        cam = c.camera

        # def saving(x=None):
        #     if not hasattr(c.feature_finder, 'save'):
        #         return False
        #     if x is None:
        #         return c.feature_finder.save
        #     c.feature_finder.save = x

        # self.cam_bar.add_var(
        #     'save',
        #     label='save',
        #     vtype=atb.TW_TYPE_BOOL8,
        #     getter=lambda: saving(),
        #     setter=lambda x: saving(x),
        # )

        # self.cam_bar.add_var(
        #     'binning',
        #     label='binning',
        #     vtype=atb.TW_TYPE_UINT32,
        #     min=1,
        #     max=16,
        #     step=1,
        #     target=cam,
        #     attr='binning',
        #     )

        # self.cam_bar.add_var(
        #     'gain',
        #     label='gain',
        #     vtype=atb.TW_TYPE_UINT32,
        #     min=1,
        #     max=16,
        #     step=1,
        #     target=cam,
        #     attr='gain',
        #     )

        # self.cam_bar.add_var(
        #     'exposure',
        #     label='exposure',
        #     vtype=atb.TW_TYPE_UINT32,
        #     min=5000,
        #     max=30000,
        #     step=1000,
        #     target=c,
        #     attr='exposure',
        #     )

        self.cam_bar.add_var(
            'ROI/roi_width',
            label='width',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=800,
            step=1,
            target=cam,
            attr='roi_width',
        )

        self.cam_bar.add_var(
            'ROI/roi_height',
            label='height',
            vtype=atb.TW_TYPE_UINT32,
            min=1,
            max=800,
            step=1,
            target=cam,
            attr='roi_height',
        )

        # Event Handlers
        def on_init():
            self.tracker_view.prepare_opengl()

        def on_draw():
            self.window.clear()
            self.tracker_view.draw((self.window.width, self.window.height))

        def on_idle(dt):
            # if dt < 0.02:
            #    return
            self.update_tracker_view()
            self.window.draw()

        def on_key_press(symbol, modifiers):
            if symbol == glumpy.key.ESCAPE:
                c.stop_continuous_acquisition()
                logging.debug("Controller has %i refs" % sys.getrefcount(c))
                c.release()
                self.controller = None
                logging.debug("Controller has %i refs" % sys.getrefcount(c))
                c.shutdown()
                sys.exit()

        self.window.push_handlers(atb.glumpy.Handlers(self.window))
        self.window.push_handlers(on_init, on_draw, on_key_press, on_idle)
        self.window.draw()