Exemplo n.º 1
0
 def updateResultsButton(self, dt=None):
     try:
         # todo: contact dropbox
         local_recon = '/home/pi/recon'
         for local_file in os.listdir(local_recon):
             if local_file.endswith('.raw.log.iphone.log'):
                 btn = Button(text=local_file, size_hint_y=None, height=44)
                 btn.bind(on_release=lambda btn: self._show_carousel(btn.text))
                 self._dropdown.add_widget(btn)
     except:
         # do nothing
         print('error')
Exemplo n.º 2
0
    def __init__(self, frames, func, **kwargs):
        super().__init__(**kwargs)

        self.frame_slider = Slider(min=0,
                                   max=frames - 1,
                                   value=1,
                                   size_hint=(.7, .6),
                                   pos_hint={
                                       'x': .15,
                                       'y': .4
                                   })
        self.frame_slider.bind(value=partial(self.change_frame, func))

        self.frame_text = ntlabel(text='Frame: ' + str(0),
                                  size_hint=(.6, .4),
                                  pos_hint={
                                      'x': .2,
                                      'y': 0
                                  },
                                  style=2)

        self.frame_minus = Button(text='<<',
                                  size_hint=(.15, .6),
                                  pos_hint={
                                      'x': .0,
                                      'y': .4
                                  },
                                  markup=True)
        self.frame_plus = Button(text='>>',
                                 size_hint=(.15, .6),
                                 pos_hint={
                                     'x': .85,
                                     'y': .4
                                 },
                                 markup=True)

        self.frame_minus.bind(on_press=self.frame_backward)
        self.frame_plus.bind(on_press=self.frame_forward)

        self.frames = frames
        self.slider_layout = FloatLayout(size=(500, 500), pos=self.pos)

        self.slider_layout.add_widget(self.frame_slider)
        self.slider_layout.add_widget(self.frame_text)
        self.slider_layout.add_widget(self.frame_minus)
        self.slider_layout.add_widget(self.frame_plus)

        with self.canvas:
            self.add_widget(self.slider_layout)

        self.bind(pos=self.update_size, size=self.update_size
                  )  # Maintain image size on scaling of parent layout
Exemplo n.º 3
0
    def __init__(self, features, track_param, frames, **kwargs):

        super().__init__(**kwargs)

        self.tracking_object = trackcells.TrackCells(features=features,
                                                     track_param=track_param,
                                                     frames=frames)

        self.track_message = Label(
            text='[b][color=000000] Tracking cells [/b][/color]',
            markup=True,
            size_hint=(.2, .05),
            pos_hint={
                'x': .4,
                'y': .65
            })
        self.track_counter = Label(text='[b][color=000000] [/b][/color]',
                                   markup=True,
                                   size_hint=(.2, .05),
                                   pos_hint={
                                       'x': .4,
                                       'y': .6
                                   })
        self.cancel_btn = Button(text='Cancel',
                                 markup=True,
                                 size_hint=(.2, .05),
                                 pos_hint={
                                     'x': .4,
                                     'y': .5
                                 })
        self.cancel_btn.bind(on_release=self.cancel_tracking)
        self.layout = FloatLayout(size=(Window.width, Window.height))

        self.add_flag = True
        self.optimise_flag = False
        self.count = 0
        self.optimise_count = 0
        self.sweep = 0
        self.cancel_flag = False

        with self.canvas:
            self.add_widget(self.layout)
            self.layout.add_widget(self.track_counter)
            self.layout.add_widget(self.track_message)
            self.layout.add_widget(self.cancel_btn)
Exemplo n.º 4
0
def add_btn(layout, text, func, group=None):
    btn = Button(text=text, group=group, halign='center', valign='middle')
    btn.bind(on_press=func)
    btn.bind(size=btn.setter('text_size'))
    layout.add_widget(btn)

    return
Exemplo n.º 5
0
    def __init__(self, movie, labels, tracks, stored_tracks, features,
                 **kwargs):
        super().__init__(**kwargs)

        self.movie = movie
        self.tracks = tracks
        self.features = features
        self.labels = labels

        self.keyboard = Window.request_keyboard(self.keyboard_closed, self)
        self.keyboard.bind(on_key_down=self.key_print)

        self.tr_layout = FloatLayout(size=(Window.width, Window.height))

        # Stored Tracks

        self.store_ids = set()

        for i in range(len(stored_tracks)):
            if stored_tracks[i] == 1:
                self.store_ids = self.store_ids.union(
                    set(self.tracks[self.tracks[:, 4] == i, 0]))

        self.store_layout = FloatLayout(size=(Window.width, Window.height))

        self.track_disp = IndexedDisplay(size_hint=(.43, .43),
                                         pos_hint={
                                             'x': .12,
                                             'y': .46
                                         })
        self.tr_layout.add_widget(self.track_disp)

        self.mov_disp = ImDisplay(size_hint=(.43, .43),
                                  pos_hint={
                                      'x': .56,
                                      'y': .46
                                  })
        self.tr_layout.add_widget(self.mov_disp)

        self.track_ids = np.zeros(1)

        self.current_frame = 0
        self.channel = 0
        self.mov_disp.create_im(
            self.movie.read_im(self.channel, self.current_frame), 'PastelHeat')

        inds = self.features['tracking'][:, 1]
        mask = np.equal(inds, 0)

        if any(mask):
            self.frame_feats = self.features['tracking'][mask, :]

        im_temp = self.labels[0, :, :]

        mapping = self.features['tracking'][:, 11].astype(int)
        self.track_disp.create_im(im_temp, 'Random', mapping)

        self.frame_slider = guitools.FrameSlider(self.movie.frames,
                                                 self.change_frame,
                                                 size_hint=(.39, .06),
                                                 pos_hint={
                                                     'x': .05,
                                                     'y': .91
                                                 })
        self.tr_layout.add_widget(self.frame_slider)

        self.tracking_window = TrackingData(size_hint=(.43, .43),
                                            pos_hint={
                                                'x': .12,
                                                'y': .46
                                            })
        self.jump_window = Jump(size_hint=(.87, .3),
                                pos_hint={
                                    'x': .12,
                                    'y': .12
                                })

        layout4 = GridLayout(cols=1,
                             padding=2,
                             size_hint=(.1, .78),
                             pos_hint={
                                 'x': .01,
                                 'y': .115
                             })

        self.cell_mark = CellMark(size_hint=(.43, .43),
                                  pos_hint={
                                      'x': .12,
                                      'y': .46
                                  })
        self.cell_mark_2 = CellMark(size_hint=(.43, .43),
                                    pos_hint={
                                        'x': .56,
                                        'y': .46
                                    })

        self.track_btn1 = ToggleButton(text=' Select Cell (z) ',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn2 = ToggleButton(text=' Add Segment (c)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn3 = ToggleButton(text='Remove Segment(v)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn4 = ToggleButton(text='Swap Tracks (x)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn5 = ToggleButton(text='Jump (w)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn6 = ToggleButton(text='New Track (n)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn9 = Button(text='Store Track',
                                 markup=True,
                                 halign='center',
                                 valign='middle')
        self.track_btn10 = Button(text='Export All to CSV',
                                  markup=True,
                                  halign='center',
                                  valign='middle')
        self.track_btn11 = Button(text='Export Sel to CSV',
                                  markup=True,
                                  halign='center',
                                  valign='middle')

        self.track_btn1.bind(
            on_press=partial(self.tracking_window.state_change, state=1))
        self.track_btn2.bind(
            on_press=partial(self.tracking_window.state_change, state=2))
        self.track_btn3.bind(
            on_press=partial(self.tracking_window.state_change, state=3))
        self.track_btn4.bind(
            on_press=partial(self.tracking_window.state_change, state=4))
        self.track_btn5.bind(on_press=partial(self.jump_window.jump, flag=0))
        self.track_btn6.bind(
            on_press=partial(self.tracking_window.state_change, state=5))
        self.track_btn9.bind(on_press=self.store_track)
        self.track_btn10.bind(on_press=self.save_csv)
        self.track_btn11.bind(on_press=self.save_sel_csv)

        layout4.add_widget(self.track_btn1)
        layout4.add_widget(self.track_btn2)
        layout4.add_widget(self.track_btn3)
        layout4.add_widget(self.track_btn4)
        layout4.add_widget(self.track_btn6)
        layout4.add_widget(self.track_btn5)
        layout4.add_widget(self.track_btn9)
        layout4.add_widget(self.track_btn10)
        layout4.add_widget(self.track_btn11)

        for child in layout4.children:
            child.bind(size=child.setter('text_size'))

        self.layout4 = layout4

        self.show_feat = [0, 1, 2]

        self.graph = GraphTrack(self.movie.frames,
                                size_hint=(.87, .32),
                                pos_hint={
                                    'x': .12,
                                    'y': .12
                                })

        self.graph_buttons = GridLayout(cols=4,
                                        spacing=[2, 2],
                                        size_hint=(.5, .08),
                                        pos_hint={
                                            'x': .47,
                                            'y': .9
                                        })

        self.text_input1 = TextInput(text='1', multiline=False)
        self.text_input2 = TextInput(text='2', multiline=False)
        self.text_input3 = TextInput(text='3', multiline=False)

        self.text_input1.bind(on_text_validate=partial(self.feat_change, 0))
        self.text_input2.bind(on_text_validate=partial(self.feat_change, 1))
        self.text_input3.bind(on_text_validate=partial(self.feat_change, 2))

        self.graph_buttons.add_widget(self.text_input1)
        self.graph_buttons.add_widget(self.text_input2)
        self.graph_buttons.add_widget(self.text_input3)

        self.clear_button = Button(text=' Clear Events ')
        self.clear_button.bind(on_press=self.clear_events)
        self.graph_buttons.add_widget(self.clear_button)

        self.event_flag1 = ToggleButton(text='Event 1')
        self.event_flag2 = ToggleButton(text='Event 2')
        self.event_flag3 = ToggleButton(text='Event 3')

        self.event_flag1.bind(on_press=partial(self.jump_window.jump, flag=1))
        self.event_flag2.bind(on_press=partial(self.jump_window.jump, flag=2))
        self.event_flag3.bind(on_press=partial(self.jump_window.jump, flag=3))

        self.graph_buttons.add_widget(self.event_flag1)
        self.graph_buttons.add_widget(self.event_flag2)
        self.graph_buttons.add_widget(self.event_flag3)

        # Drop down menu for choosing which channel
        self.channel_choice = DropDown()

        for i in range(self.movie.channels):
            channel_btn = ToggleButton(text='Channel ' + str(i + 1),
                                       group='channel',
                                       size_hint_y=None)
            channel_btn.bind(on_press=partial(self.change_channel, i))
            self.channel_choice.add_widget(channel_btn)

        self.main_button = Button(text=' Channel ')
        self.main_button.bind(on_release=self.channel_choice.open)
        self.channel_choice.bind(
            on_select=lambda instance, x: setattr(self.main_button, 'text', x))
        self.graph_buttons.add_widget(self.main_button)

        mask = self.tracks[:, 0] == self.tracks[
            0, 0]  # Test if selection is in track array and identify it
        self.track_ind = self.tracks[mask, 4]  # Set the selected track index

        with self.canvas:

            self.add_widget(self.tr_layout)
            self.add_widget(self.store_layout)

            self.tr_layout.add_widget(self.layout4)
            self.tr_layout.add_widget(self.tracking_window)
            self.tr_layout.add_widget(self.jump_window)
            self.tr_layout.add_widget(self.cell_mark)
            self.tr_layout.add_widget(self.cell_mark_2)

            self.tr_layout.add_widget(self.graph)
            self.tr_layout.add_widget(self.graph_buttons)

            for i in range(len(stored_tracks)):
                self.store_layout.add_widget(
                    CellMark(size_hint=(.43, .43),
                             pos_hint={
                                 'x': .12,
                                 'y': .46
                             }))
Exemplo n.º 6
0
class TrackingUI(Widget):
    def __init__(self, movie, labels, tracks, stored_tracks, features,
                 **kwargs):
        super().__init__(**kwargs)

        self.movie = movie
        self.tracks = tracks
        self.features = features
        self.labels = labels

        self.keyboard = Window.request_keyboard(self.keyboard_closed, self)
        self.keyboard.bind(on_key_down=self.key_print)

        self.tr_layout = FloatLayout(size=(Window.width, Window.height))

        # Stored Tracks

        self.store_ids = set()

        for i in range(len(stored_tracks)):
            if stored_tracks[i] == 1:
                self.store_ids = self.store_ids.union(
                    set(self.tracks[self.tracks[:, 4] == i, 0]))

        self.store_layout = FloatLayout(size=(Window.width, Window.height))

        self.track_disp = IndexedDisplay(size_hint=(.43, .43),
                                         pos_hint={
                                             'x': .12,
                                             'y': .46
                                         })
        self.tr_layout.add_widget(self.track_disp)

        self.mov_disp = ImDisplay(size_hint=(.43, .43),
                                  pos_hint={
                                      'x': .56,
                                      'y': .46
                                  })
        self.tr_layout.add_widget(self.mov_disp)

        self.track_ids = np.zeros(1)

        self.current_frame = 0
        self.channel = 0
        self.mov_disp.create_im(
            self.movie.read_im(self.channel, self.current_frame), 'PastelHeat')

        inds = self.features['tracking'][:, 1]
        mask = np.equal(inds, 0)

        if any(mask):
            self.frame_feats = self.features['tracking'][mask, :]

        im_temp = self.labels[0, :, :]

        mapping = self.features['tracking'][:, 11].astype(int)
        self.track_disp.create_im(im_temp, 'Random', mapping)

        self.frame_slider = guitools.FrameSlider(self.movie.frames,
                                                 self.change_frame,
                                                 size_hint=(.39, .06),
                                                 pos_hint={
                                                     'x': .05,
                                                     'y': .91
                                                 })
        self.tr_layout.add_widget(self.frame_slider)

        self.tracking_window = TrackingData(size_hint=(.43, .43),
                                            pos_hint={
                                                'x': .12,
                                                'y': .46
                                            })
        self.jump_window = Jump(size_hint=(.87, .3),
                                pos_hint={
                                    'x': .12,
                                    'y': .12
                                })

        layout4 = GridLayout(cols=1,
                             padding=2,
                             size_hint=(.1, .78),
                             pos_hint={
                                 'x': .01,
                                 'y': .115
                             })

        self.cell_mark = CellMark(size_hint=(.43, .43),
                                  pos_hint={
                                      'x': .12,
                                      'y': .46
                                  })
        self.cell_mark_2 = CellMark(size_hint=(.43, .43),
                                    pos_hint={
                                        'x': .56,
                                        'y': .46
                                    })

        self.track_btn1 = ToggleButton(text=' Select Cell (z) ',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn2 = ToggleButton(text=' Add Segment (c)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn3 = ToggleButton(text='Remove Segment(v)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn4 = ToggleButton(text='Swap Tracks (x)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn5 = ToggleButton(text='Jump (w)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn6 = ToggleButton(text='New Track (n)',
                                       markup=True,
                                       halign='center',
                                       valign='middle')
        self.track_btn9 = Button(text='Store Track',
                                 markup=True,
                                 halign='center',
                                 valign='middle')
        self.track_btn10 = Button(text='Export All to CSV',
                                  markup=True,
                                  halign='center',
                                  valign='middle')
        self.track_btn11 = Button(text='Export Sel to CSV',
                                  markup=True,
                                  halign='center',
                                  valign='middle')

        self.track_btn1.bind(
            on_press=partial(self.tracking_window.state_change, state=1))
        self.track_btn2.bind(
            on_press=partial(self.tracking_window.state_change, state=2))
        self.track_btn3.bind(
            on_press=partial(self.tracking_window.state_change, state=3))
        self.track_btn4.bind(
            on_press=partial(self.tracking_window.state_change, state=4))
        self.track_btn5.bind(on_press=partial(self.jump_window.jump, flag=0))
        self.track_btn6.bind(
            on_press=partial(self.tracking_window.state_change, state=5))
        self.track_btn9.bind(on_press=self.store_track)
        self.track_btn10.bind(on_press=self.save_csv)
        self.track_btn11.bind(on_press=self.save_sel_csv)

        layout4.add_widget(self.track_btn1)
        layout4.add_widget(self.track_btn2)
        layout4.add_widget(self.track_btn3)
        layout4.add_widget(self.track_btn4)
        layout4.add_widget(self.track_btn6)
        layout4.add_widget(self.track_btn5)
        layout4.add_widget(self.track_btn9)
        layout4.add_widget(self.track_btn10)
        layout4.add_widget(self.track_btn11)

        for child in layout4.children:
            child.bind(size=child.setter('text_size'))

        self.layout4 = layout4

        self.show_feat = [0, 1, 2]

        self.graph = GraphTrack(self.movie.frames,
                                size_hint=(.87, .32),
                                pos_hint={
                                    'x': .12,
                                    'y': .12
                                })

        self.graph_buttons = GridLayout(cols=4,
                                        spacing=[2, 2],
                                        size_hint=(.5, .08),
                                        pos_hint={
                                            'x': .47,
                                            'y': .9
                                        })

        self.text_input1 = TextInput(text='1', multiline=False)
        self.text_input2 = TextInput(text='2', multiline=False)
        self.text_input3 = TextInput(text='3', multiline=False)

        self.text_input1.bind(on_text_validate=partial(self.feat_change, 0))
        self.text_input2.bind(on_text_validate=partial(self.feat_change, 1))
        self.text_input3.bind(on_text_validate=partial(self.feat_change, 2))

        self.graph_buttons.add_widget(self.text_input1)
        self.graph_buttons.add_widget(self.text_input2)
        self.graph_buttons.add_widget(self.text_input3)

        self.clear_button = Button(text=' Clear Events ')
        self.clear_button.bind(on_press=self.clear_events)
        self.graph_buttons.add_widget(self.clear_button)

        self.event_flag1 = ToggleButton(text='Event 1')
        self.event_flag2 = ToggleButton(text='Event 2')
        self.event_flag3 = ToggleButton(text='Event 3')

        self.event_flag1.bind(on_press=partial(self.jump_window.jump, flag=1))
        self.event_flag2.bind(on_press=partial(self.jump_window.jump, flag=2))
        self.event_flag3.bind(on_press=partial(self.jump_window.jump, flag=3))

        self.graph_buttons.add_widget(self.event_flag1)
        self.graph_buttons.add_widget(self.event_flag2)
        self.graph_buttons.add_widget(self.event_flag3)

        # Drop down menu for choosing which channel
        self.channel_choice = DropDown()

        for i in range(self.movie.channels):
            channel_btn = ToggleButton(text='Channel ' + str(i + 1),
                                       group='channel',
                                       size_hint_y=None)
            channel_btn.bind(on_press=partial(self.change_channel, i))
            self.channel_choice.add_widget(channel_btn)

        self.main_button = Button(text=' Channel ')
        self.main_button.bind(on_release=self.channel_choice.open)
        self.channel_choice.bind(
            on_select=lambda instance, x: setattr(self.main_button, 'text', x))
        self.graph_buttons.add_widget(self.main_button)

        mask = self.tracks[:, 0] == self.tracks[
            0, 0]  # Test if selection is in track array and identify it
        self.track_ind = self.tracks[mask, 4]  # Set the selected track index

        with self.canvas:

            self.add_widget(self.tr_layout)
            self.add_widget(self.store_layout)

            self.tr_layout.add_widget(self.layout4)
            self.tr_layout.add_widget(self.tracking_window)
            self.tr_layout.add_widget(self.jump_window)
            self.tr_layout.add_widget(self.cell_mark)
            self.tr_layout.add_widget(self.cell_mark_2)

            self.tr_layout.add_widget(self.graph)
            self.tr_layout.add_widget(self.graph_buttons)

            for i in range(len(stored_tracks)):
                self.store_layout.add_widget(
                    CellMark(size_hint=(.43, .43),
                             pos_hint={
                                 'x': .12,
                                 'y': .46
                             }))

    def track_frame_update(self):

        if self.track_ids.any:
            self.cell_mark.remove_dot()
            self.cell_mark_2.remove_dot()

            mask = np.intersect1d(self.track_ids, self.frame_feats[:, 0])

            if mask:

                cell_center = self.frame_feats[self.frame_feats[:,
                                                                0] == mask[0],
                                               [2, 3]]

                self.cell_mark.draw_dot(cell_center.copy(), self.movie.dims,
                                        1., 1., 1., 50)
                self.cell_mark_2.draw_dot(cell_center.copy(), self.movie.dims,
                                          1., 0., 0., 70)

        for i in range(len(self.parent.fov['tracks_stored'])):
            self.store_layout.children[i].remove_dot()

        count = 0

        if len(self.store_ids) > 0:

            mask2 = self.store_ids.intersection(set(self.frame_feats[:, 0]))
            if len(mask2) > 0:
                for i in mask2:
                    cell_center = self.frame_feats[self.frame_feats[:, 0] == i,
                                                   [2, 3]]
                    self.store_layout.children[count].draw_dot(
                        cell_center, self.movie.dims, 0., 0., 0., 70)
                    count += 1

    def change_frame(self, val):

        if val >= self.movie.frames:
            val = self.movie.frames - 1

        if val < 0:
            val = 0

        if self.track_btn5.state == 'down':
            self.track_btn5.state = 'normal'
            val = int(val * self.movie.frames)

        self.current_frame = int(val)
        im_temp = self.labels[int(val), :, :]
        self.frame_slider.frame_slider.value = val

        mapping = self.features['tracking'][:, 11].astype(int)
        self.track_disp.update_im(im_temp.astype(float), mapping)

        self.mov_disp.update_im(
            self.movie.read_im(self.channel, self.current_frame))

        inds = self.features['tracking'][:, 1]
        mask = inds == self.current_frame
        self.frame_feats = self.features['tracking'][mask, :]

        self.track_frame_update()

        self.graph.update_frame(self.current_frame)

    def clear_events(self, instance):

        mask2 = self.tracks[:, 4] == self.track_ind[0]
        self.track_ids = self.tracks[mask2, 0].astype(int)
        self.features['tracking'][self.track_ids, 12] = 0

        self.modify_update()

    def add_event(self, xpos, val):

        frame = np.round(self.movie.frames * xpos)
        mask2 = self.tracks[:, 4] == self.track_ind[0]
        self.track_ids = self.tracks[mask2, 0].astype(int)

        time_points = self.features['tracking'][self.track_ids, 1]
        event_ind = np.argmin(np.abs(time_points - frame))
        event_ind = self.track_ids[event_ind]

        if val == 1:
            self.event_flag1.state = 'normal'
            self.features['tracking'][event_ind, 12] = 1

        if val == 2:
            self.event_flag2.state = 'normal'
            self.features['tracking'][event_ind, 12] = 2

        if val == 3:
            self.event_flag3.state = 'normal'
            self.features['tracking'][event_ind, 12] = 3

        self.modify_update()

    def modify_update(self):

        im_temp = self.labels[self.current_frame, :, :]

        mapping = self.features['tracking'][:, 11].astype(int)
        self.track_disp.update_im(im_temp.astype(float), mapping)

        self.canvas.ask_update()

        mask2 = self.tracks[:, 4] == self.track_ind[0]
        self.track_ids = self.tracks[mask2, 0].astype(int)
        self.track_frame_update()

        self.map_ind = self.features['tracking'][self.track_ids[0], 11]
        self.graph.update_graph(self.features, self.track_ids, self.show_feat)

    def track_amend(self, pos, flag):

        mod_flag = False

        # Calculate nearest segment

        if 0 < flag <= 5:

            pos = np.asarray(
                [[pos[0] * self.movie.dims[1], pos[1] * self.movie.dims[0]]])
            d = distance.cdist(self.frame_feats[:, [2, 3]],
                               pos)  # Calculate distance from frame segments

            sel = self.frame_feats[np.argmin(
                d), :]  # Choose closest segment to mouse click
            mask = np.equal(
                self.tracks[:, 0],
                sel[0])  # Test if selection is in track array and identify it

            # Select Cell

            if flag == 1:
                self.track_btn1.state = 'normal'

                if np.any(mask) and np.min(d) < 50:
                    self.track_ind = self.tracks[
                        mask, 4]  # Set the selected track index
                    self.modify_update(
                    )  # Display this as cell marked with black dot

            # Add segment to cell track

            if flag == 2:

                self.track_btn2.state = 'normal'

                if not np.any(mask) and np.min(d) < 50:

                    frame_ids = self.tracks[
                        self.tracks[:, 5] ==
                        self.current_frame, :]  # Get all cell tracks in frame

                    mask2 = np.equal(
                        frame_ids[:, 4], self.track_ind
                    )  # Test if selected track already has segment in frame

                    if np.any(mask2):

                        feat_id = frame_ids[
                            mask2, 0]  # get unique id of segment in frame

                        self.features['tracking'][
                            self.features['tracking'][:, 0] == feat_id, 11] = 1
                        self.features['tracking'][
                            self.features['tracking'][:, 0] == sel[0],
                            11] = self.map_ind

                        self.tracks[self.tracks[:, 0] == feat_id, 0] = sel[0]

                    else:

                        # where to insert the track

                        i = 0

                        while self.tracks[i, 4] != self.track_ind:
                            i += 1

                        else:
                            while self.tracks[
                                    i,
                                    5] < self.current_frame and i + 1 < self.tracks.shape[
                                        0]:
                                i += 1

                            if i + 1 == self.tracks.shape[0]:

                                self.tracks = np.vstack((self.tracks, [
                                    sel[0], 0, 0, 0, self.track_ind,
                                    self.current_frame, 0, 0
                                ]))
                                self.features['tracking'][
                                    self.features['tracking'][:, 0] == sel[0],
                                    11] = self.map_ind

                            else:

                                self.tracks = np.insert(
                                    self.tracks, i, [
                                        sel[0], 0, 0, 0, self.track_ind,
                                        self.current_frame, 0, 0
                                    ], 0)
                                self.features['tracking'][
                                    self.features['tracking'][:, 0] == sel[0],
                                    11] = self.map_ind

                    mod_flag = True
                    self.modify_update()

            # Remove segment from cell track

            if flag == 3:

                self.track_btn3.state = 'normal'

                if np.any(mask) and np.min(d) < 50:
                    self.features['tracking'][
                        self.features['tracking'][:, 0] == sel[0], 11] = 1

                    ind = np.where(mask)
                    self.tracks = np.delete(self.tracks, ind[0][0], 0)

                    mod_flag = True
                    self.modify_update()

            # Swap tracks in proceeding frames

            if flag == 4:
                self.track_btn4.state = 'normal'

                if np.any(mask) and np.min(
                        d
                ) < 50 and self.current_frame != 0 and self.current_frame != self.movie.frames:

                    # rows of selected track proceeding frame

                    sel_mask = self.tracks[:, 4] == self.track_ind[0]
                    sel_track = self.tracks[sel_mask, :]

                    # rows of track to swap proceeding frame

                    swap_ind = self.tracks[mask, 4]

                    if swap_ind == self.track_ind[0]:
                        return

                    swap_mask = self.tracks[:, 4] == swap_ind

                    if not np.count_nonzero(swap_mask):
                        return

                    swap_track = self.tracks[swap_mask, :]

                    self.tracks = self.tracks[
                        np.logical_not(np.logical_or(sel_mask, swap_mask)), :]

                    # perform swap

                    sel1 = sel_track[sel_track[:, 5] < self.current_frame, :]
                    sel2 = sel_track[sel_track[:, 5] >= self.current_frame, :]

                    swap1 = swap_track[swap_track[:,
                                                  5] < self.current_frame, :]
                    swap2 = swap_track[swap_track[:,
                                                  5] >= self.current_frame, :]

                    swapped_1 = np.zeros(1)
                    swapped_2 = np.zeros(1)

                    if np.count_nonzero(sel1) and np.count_nonzero(swap2):
                        swapped_1 = np.vstack((sel1, swap2))
                    else:
                        if np.count_nonzero(sel1):
                            swapped_1 = sel1
                        if np.count_nonzero(swap2):
                            swapped_1 = swap2

                    if np.count_nonzero(swap1) and np.count_nonzero(sel2):
                        swapped_2 = np.vstack((swap1, sel2))
                    else:
                        if np.count_nonzero(swap1):
                            swapped_2 = swap1
                        if np.count_nonzero(sel2):
                            swapped_2 = sel2

                    if np.count_nonzero(swapped_1):
                        if np.count_nonzero(sel1):
                            swapped_1[:, 4] = sel1[0, 4]
                        if np.count_nonzero(sel2):
                            swapped_1[:, 4] = sel2[0, 4]

                    if np.count_nonzero(swapped_2):
                        if np.count_nonzero(swap1):
                            swapped_2[:, 4] = swap1[0, 4]
                        if np.count_nonzero(swap2):
                            swapped_2[:, 4] = swap2[0, 4]

                    # update labels

                    if np.count_nonzero(swapped_1):
                        self.tracks = np.vstack((self.tracks, swapped_1))
                        map_ind1 = self.features['tracking'][int(swapped_1[0,
                                                                           0]),
                                                             11]
                        self.features['tracking'][swapped_1[:, 0].astype(int),
                                                  11] = map_ind1

                    if np.count_nonzero(swapped_2):
                        self.tracks = np.vstack((self.tracks, swapped_2))
                        map_ind2 = self.features['tracking'][int(swapped_2[0,
                                                                           0]),
                                                             11]
                        self.features['tracking'][swapped_2[:, 0].astype(int),
                                                  11] = map_ind2

                    mod_flag = True
                    self.modify_update()

            # Create new track

            if flag == 5:

                self.track_btn6.state = 'normal'

                if not np.any(mask) and np.min(d) < 50:

                    # Create new track
                    self.track_ind = np.asarray([max(self.tracks[:, 4]) + 1])

                    r = 252 * np.random.rand() + 3
                    self.map_ind = r.astype(int)

                    self.tracks = np.vstack((self.tracks, [
                        sel[0], 0, 0, 0, self.track_ind, self.current_frame, 0,
                        0
                    ]))
                    self.features['tracking'][
                        self.features['tracking'][:, 0] == sel[0], 11] = r

                    self.modify_update()

                    stored_temp = self.parent.fov['tracks_stored'][...]
                    stored_temp = np.append(stored_temp, 0)

                    del self.parent.fov['tracks_stored']
                    self.parent.fov.create_dataset("tracks_stored",
                                                   data=stored_temp)
                    self.store_layout.add_widget(
                        CellMark(size_hint=(.43, .43),
                                 pos_hint={
                                     'x': .12,
                                     'y': .46
                                 }))

                    mod_flag = True

        if mod_flag:
            del self.parent.fov['tracks']
            self.parent.fov.create_dataset("tracks", data=self.tracks)

    def keyboard_closed(self):
        self.keyboard.unbind(on_key_down=self.key_print)
        self.keyboard = None

    def key_print(self, keyboard, keycode, text, modifiers):

        key = keycode[1]

        if key == 'a':
            self.change_frame(self.current_frame - 1)
            self.canvas.ask_update()

        if key == 'd':
            self.change_frame(self.current_frame + 1)
            self.canvas.ask_update()

        if key == 'z':

            if self.track_btn1.state == 'normal':
                self.track_btn1.state = 'down'

            else:
                self.track_btn1.state = 'normal'

            self.tracking_window.keyboard_press(self.track_btn1.state, 1)

        if key == 'c':

            if self.track_btn2.state == 'normal':
                self.track_btn2.state = 'down'

            else:
                self.track_btn2.state = 'normal'

            self.tracking_window.keyboard_press(self.track_btn2.state, 2)

        if key == 'v':

            if self.track_btn3.state == 'normal':
                self.track_btn3.state = 'down'

            else:
                self.track_btn3.state = 'normal'

            self.tracking_window.keyboard_press(self.track_btn3.state, 3)

        if key == 'x':

            if self.track_btn4.state == 'normal':
                self.track_btn4.state = 'down'

            else:
                self.track_btn4.state = 'normal'

            self.tracking_window.keyboard_press(self.track_btn4.state, 4)

        if key == 'n':

            if self.track_btn6.state == 'normal':
                self.track_btn6.state = 'down'

            else:
                self.track_btn6.state = 'normal'

            self.tracking_window.keyboard_press(self.track_btn6.state, 5)

        if key == 'w':

            if self.track_btn5.state == 'normal':
                self.track_btn5.state = 'down'

            else:
                self.track_btn5.state = 'normal'

            self.jump_window.k_jump(self.track_btn5.state, flag=0)

        if key == 'i':

            if self.event_flag1.state == 'normal':
                self.event_flag1.state = 'down'

            else:
                self.event_flag1.state = 'normal'

            self.jump_window.k_jump(self.event_flag1.state, flag=1)

        if key == 'o':

            if self.event_flag2.state == 'normal':
                self.event_flag2.state = 'down'

            else:
                self.event_flag2.state = 'normal'

            self.jump_window.k_jump(self.event_flag2.state, flag=2)

        if key == 'p':

            if self.event_flag3.state == 'normal':
                self.event_flag3.state = 'down'

            else:
                self.event_flag3.state = 'normal'

            self.jump_window.k_jump(self.event_flag3.state, flag=3)

    def store_track(self, instance):

        if self.parent.fov['tracks_stored'][int(self.track_ind)] == 0:
            self.parent.fov['tracks_stored'][int(self.track_ind)] = 1
            self.store_ids = self.store_ids.union(
                set(self.tracks[self.tracks[:, 4] == self.track_ind, 0]))

        else:
            self.parent.fov['tracks_stored'][int(self.track_ind)] = 0
            self.store_ids = self.store_ids.difference(
                set(self.tracks[self.tracks[:, 4] == self.track_ind, 0]))

        self.modify_update()

    def save_csv(self, instance):

        trackcells.save_csv(self.features, self.tracks, self.parent.csv_file)
        #trackcells.save_iscb(self.features, self.tracks, self.parent.csv_file, self.labels, self.frames) # Need to update since changes

    def save_sel_csv(self, instance):

        trackcells.save_sel_csv(self.features, self.tracks,
                                self.parent.fov['tracks_stored'],
                                self.parent.sel_csv_file)

    def feat_change(self, flag, instance):

        if instance.text.isdigit():
            num = int(''.join([instance.text])) - 1

            if 0 <= num < self.features['data'].shape[1]:

                self.show_feat[flag] = num

            self.modify_update()

            self.keyboard = Window.request_keyboard(self.keyboard_closed, self)
            self.keyboard.bind(on_key_down=self.key_print)

    def change_channel(self, val, instance):

        self.channel = int(val)
        self.mov_disp.update_im(
            self.movie.read_im(self.channel, self.current_frame))

    def remove(self):

        self.tr_layout.clear_widgets()
        self.store_layout.clear_widgets()

    def update_size(self, window, width, height):

        self.tr_layout.width = width
        self.tr_layout.height = height

        self.store_layout.width = width
        self.store_layout.height = height
Exemplo n.º 7
0
class RunTracking(Widget):
    def __init__(self, features, track_param, frames, **kwargs):

        super().__init__(**kwargs)

        self.tracking_object = trackcells.TrackCells(features=features,
                                                     track_param=track_param,
                                                     frames=frames)

        self.track_message = Label(
            text='[b][color=000000] Tracking cells [/b][/color]',
            markup=True,
            size_hint=(.2, .05),
            pos_hint={
                'x': .4,
                'y': .65
            })
        self.track_counter = Label(text='[b][color=000000] [/b][/color]',
                                   markup=True,
                                   size_hint=(.2, .05),
                                   pos_hint={
                                       'x': .4,
                                       'y': .6
                                   })
        self.cancel_btn = Button(text='Cancel',
                                 markup=True,
                                 size_hint=(.2, .05),
                                 pos_hint={
                                     'x': .4,
                                     'y': .5
                                 })
        self.cancel_btn.bind(on_release=self.cancel_tracking)
        self.layout = FloatLayout(size=(Window.width, Window.height))

        self.add_flag = True
        self.optimise_flag = False
        self.count = 0
        self.optimise_count = 0
        self.sweep = 0
        self.cancel_flag = False

        with self.canvas:
            self.add_widget(self.layout)
            self.layout.add_widget(self.track_counter)
            self.layout.add_widget(self.track_message)
            self.layout.add_widget(self.cancel_btn)

    def cancel_tracking(self, instance):

        self.add_flag = False
        self.optimise_flag = False
        self.cancel_flag = True
        self.parent.cancel_flag = True
        self.cancel_btn.text = 'Tracking Canceled'

    def update_count(self):
        if self.add_flag:
            self.track_counter.text = '[b][color=000000]' + str(
                self.count) + '[/b][/color]'
        else:
            self.track_counter.text = '[b][color=000000]' + str(
                self.optimise_count) + '[/b][/color]'

    def update_message(self, val):

        if val >= 0:
            self.track_message.text = '[b][color=000000]Optimising Tracks Sweep ' + str(
                val) + ' [/b][/color]'
            self.tracking_state = val

        else:
            self.track_message.text = '[b][color=000000]Tracking Completed | Total segments: ' + \
                                              str(self.segment_count) + ' | Total double segments: ' + \
                                              str(self.double_segment) + '[/b][/color]'

    def add_track(self):

        if self.add_flag:

            self.add_flag = self.tracking_object.addtrack()
            self.count += 1

            if not self.add_flag:

                self.optimise_flag = True
                self.update_message(self.sweep + 1)

            return False

        if self.optimise_flag:

            self.optimise_flag = self.tracking_object.optimisetrack()
            self.optimise_count += 1

            if not self.optimise_flag and self.sweep < 1:

                self.optimise_count = 0
                self.sweep += 1
                self.update_message(self.sweep + 1)
                self.optimise_flag = True

            return False

        if not self.add_flag and not self.optimise_flag:
            if not self.cancel_flag:

                self.optimise_count = 0
                self.tracks, self.features, self.segment_count, self.double_segment = self.tracking_object.get(
                )
                self.update_message(-1)

                return True

    def test_cancel(self):
        return self.cancel_flag

    def get(self):
        return self.tracks, self.features

    def update_size(self, window, width, height):

        self.width = width
        self.height = height
Exemplo n.º 8
0
class TestCamera(App):
    def __init__(self, **kwargs):
        super(TestCamera, self).__init__(**kwargs)
        self._camera = None

    def _camera_toggle(self, val):
        self._camera.play = not self._camera.play

    def _led_toggle(self, val):
        if self._led_state == GPIO.LOW:
            self._led_state = GPIO.HIGH
            self._toggle.text = "LED ON"
        else:
            self._led_state = GPIO.LOW
            self._toggle.text = "LED OFF"
        GPIO.output(LED_Pin, self._led_state)



    def _show_demo_results(self, val):
        popup = Popup(title='Reconstruction Results',
                      content=Label(text=
                        'TOTAL TARGET CELLS                          : 52\n'+
                        'TOTAL FOUND  CELLS                           : 77\n'+
                        'TOTAL FILTERED CELLS                        : 0\n'+
                        'TOTAL BEADS FOR TARGET CELLS      : 235\n'+
                        'AVERAGE BEADS/CELL                         : 4'),
                      size_hint=(None, None), size=(400, 200))
        popup.open()

    def _show_carousel(self, log_file):
        local_recon = '/home/pi/recon'
        prefix = log_file.split('.', 1)[0]
        carousel = Carousel(direction='right')
        for filename in os.listdir(local_recon):
            if filename.startswith(prefix) and filename.endswith('.png'):
                src = os.path.join(local_recon, filename)
                image = Image(source=src, allow_stretch=True,  size=(620, 460))
                carousel.add_widget(image)
        popup = Popup(title='Reconstruction Results',
                      content=carousel,
                      size_hint=(None, None), size=(640, 480))
        popup.open()


    def _request_capture(self, val):
        self._camera.capture__full_res_frame()

    def _request_ref_capture(self, val):
        self._camera.capture__full_res_ref()


    def _toggle_object_detection(self, val):
        detecting = not self._camera.get_object_detection()
        self._camera.set_object_detection(detecting)
        if not detecting:
            self._object_detection.source = '/home/pi/d3-ui/img/object_detection_off.png'
        else:
            self._object_detection.source = '/home/pi/d3-ui/img/object_detection_on.png'

    def _change_exposure(self, instance, val):
        self._camera.set_exposure(int(val))

    def _do_reset_scatter(self, val):
        # move the
        mat = Matrix().scale(10,10,10).translate(0,-150,0)
        self._scatter.transform = mat

    def _auto_change_exposure(self, val):
        # go in steps
        self._auto_centroiding = True
        self._auto_centroid.source = '/home/pi/d3-ui/img/distribution_centroid_on.png'
        t = Thread(name='centroid_thread',
                   target=self._do_auto_change_exposure)
        t.start()

    def _auto_change_exposure_done(self, l):
        # go in steps
        self._auto_centroiding = True
        self._auto_centroid.source = '/home/pi/d3-ui/img/distribution_centroid_off.png'

    # basic pid loop....
    def _do_auto_change_exposure(self):
        epsilon = 1
        previous_error = 0
        integral = 0
        error = 127 - self._histogram.centroid
        dt = 1
        Kp = 0.5
        #Kd = 0.6
        #Ki = 0.6
        Kd = 0.1
        Ki = 0
        tries = 0
        max_tries = 15
        while abs(error) > epsilon and tries < max_tries:
            try:
                integral = integral + error*dt
                derivative = (error - previous_error)/dt
                output = Kp*error + Ki*integral + Kd*derivative + self._camera.get_exposure()
                # set exposure to the output
                if(output < self._exposure_slider.max and output > self._exposure_slider.min):
                    self._camera.set_exposure(int(output))
                    # let the exposure settle
                    sleep(.4)
                previous_error = error
                error = 127 - self._histogram.centroid
                tries += 1
            except:
                e = sys.exc_info()[0]
                Logger.exception('Exception! %s', e)
        Clock.schedule_once(self._auto_change_exposure_done)


    def _exit_app(self, val):
        self._camera.play = False
        # give it a 1/4 sec to shu down the camera
        sleep(0.25)
        App.get_running_app().stop()
        import sys
        sys.exit()

    def _update_histogram(self, val):
        frame = self._camera.get_current_frame()
        self._histogram.set_data(frame)

        #self._histogram.set_pil_image(self._camera.get_current_frame())
        #npImage = np.array(frame)

        #hist_full = cv2.calcHist([npImage],[0],None,[256],[0,256]).ravel()
        #self._plot.points = [(x, hist_full[x]) for x in range(0,256)]


        #plt.plot(hist_full,color = 'b')
        #plt.clf()
        #plt.hist(npImage.ravel(), 256,[0,256])
        #plt.xlim([0,256])
        #self._histogram.draw()


    def _update_fps(self, l):
        self._fps.text = "FPS: %d" % self._camera.get_fps()
        self._exposure.text = "Exposure: %d" % self._camera.get_exposure()
        self._centroid.text = "C: %d" % self._histogram.centroid

        # todo: change this to be event-driven
        if self._camera.is_uploading():
            if self._uploading.pos_hint['pos'][0] < 0:
                self._uploading.pos_hint = {'pos':(0.0,0.9)}
                self._uploadingAmt.pos_hint = {'pos': (0.0, 0.8)}
                self._upload_progress.pos_hint = {'pos':(0.2,0.9)}
                #self._demo.pos_hint = {'pos': (0.0, 0.7)}
                self._snap.enabled = False
            self._upload_progress.value = 100 * self._camera.get_uploaded_size() / self._camera.get_total_upload_size()
            self._uploadingAmt.text = '%d kB' % int(self._camera.get_uploaded_size() / 1000)
        else:
            if self._uploading.pos_hint['pos'][0] >= 0:
                try:
                    self._uploading.pos_hint = {'pos':(-1,-1)}
                    self._upload_progress.pos_hint = {'pos':(-1,-1)}
                    self._uploadingAmt.pos_hint = {'pos': (-1, -1)}
                    self._upload_progress.pos_hint = {'pos':(-1,-1)}

                    #self._demo.pos_hint = {'pos': (-1, -1)}
                    self._snap.enabled = True
                except:
                    e = sys.exc_info()[0]
                    Logger.exception('Exception! %s', e)

    def updateImages(self):
        if not self._is_updating:
            t = Thread(name='image_thread',
                       target=self._do_download)
            t.start()

    def _do_download(self):
        try:
            self._is_updating = True
            local_recon ='/home/pi/recon'

            if not os.path.exists(local_recon):
                os.makedirs(local_recon)

            dbx = dropbox.Dropbox("Yk7MLEza3NAAAAAAAAABGyzVVQi_3q7CkUoPjSjO6tWId31ogOM0KiBcdowZoB0b")
            # dbx = dropbox.Dropbox("Yk7MLEza3NAAAAAAAAAAp3MyYSImy0N0-3IMflqMPenGwEWJPqxAWeOAFzKu6y9A")
            # remote_path = '/input_test/D3RaspberryPi/%s' % os.path.basename(file)
            remote_recon = '/input/D3RaspberryPi/recon/'

            mode = dropbox.files.WriteMode.overwrite
            #mtime = os.path.getmtime(file)

            # list the folder contents
            try:
                res = dbx.files_list_folder(remote_recon)
                for entry in res.entries:
                    local_file = os.path.join(local_recon, entry.name)
                    if not os.path.exists (local_file):
                        # download and overwrite it
                        md, dl_res = dbx.files_download(entry.path_lower)
                        file = open(local_file, 'w')
                        file.write(dl_res.content)
                        file.close
                #delete items no longer in dropbox
                # for localfile in os.listdir(local_recon):
                #     local_file = os.path.join(local_recon, entry.name)
                #     if not os.path.exists (local_file):
                #         # download and overwrite it
                #         md, dl_res = dbx.files_download(local_file)
                #         file = open(local_file, 'w')
                #         file.write(dl_res.content)
                #         file.close
                Clock.schedule_once(self.updateResultsButton, 0.5)
            except dropbox.exceptions.ApiError as err:
                print('*** API error', err)
                return None
        except:
            e = sys.exc_info()[0]
            Logger.exception('Exception! %s', e)
            Clock.schedule_once(self.updateResultsButton, 0.5)
        self._is_updating = False

    def updateResultsButton(self, dt=None):
        try:
            # todo: contact dropbox
            local_recon = '/home/pi/recon'
            for local_file in os.listdir(local_recon):
                if local_file.endswith('.raw.log.iphone.log'):
                    btn = Button(text=local_file, size_hint_y=None, height=44)
                    btn.bind(on_release=lambda btn: self._show_carousel(btn.text))
                    self._dropdown.add_widget(btn)
        except:
            # do nothing
            print('error')

    def build(self):

        GPIO.setmode(GPIO.BCM)
        GPIO.setup(LED_Pin, GPIO.OUT)
        self._led_state =  GPIO.LOW
        GPIO.output(LED_Pin, self._led_state)

        #layout = BoxLayout(orientation='vertical')
        layout = FloatLayout(size=(800, 480), pos=(0,0))

        self._toggle = ToggleButton(text='LED OFF',
           size_hint=(0.2,0.2), pos_hint={'pos':(0.8,0)})

        self._snap = Button(text='Capture',
           size_hint=(0.2,0.2), pos_hint={'pos':(0.8,0.2)})

        self._snapref = Button(text='Reference',
           size_hint=(0.2,0.2), pos_hint={'pos':(0.8,0.4)})

        self._demo = Button(text='Demo Results',
           size_hint=(0.2,0.1), pos_hint={'pos': (0.0, 0.7)})

        self._auto_centroid = ImageButton(size_hint=(0.1,0.1), pos_hint={'pos':(0.7,0)},
            source='/home/pi/d3-ui/img/distribution_centroid_off.png')

        self._object_detection = ImageButton(size_hint=(0.1,0.1), pos_hint={'pos':(0.7,0.1)},
            source='/home/pi/d3-ui/img/object_detection_off.png')

        self._reset_scatter = ImageButton(size_hint=(0.1,0.1), pos_hint={'pos':(0.7,0.2)},
            source='/home/pi/d3-ui/img/reset_scatter.png')


        self._exit = Button(text='X', size_hint=(0.05,0.05),
                            pos_hint={'pos':(0.95,0.95)})

        self._fps = Label(text='FPS: 0', size_hint=(0.1,0.1),
                          pos_hint={'pos':(0.8,0.9)})
        self._uploading = Label(text='Uploading...', size_hint=(0.2,0.1),
                          pos_hint={'pos':(-1,-1)}, color=[0,0,1,0])
        self._uploadingAmt = Label(text='', size_hint=(0.2,0.1),
                          pos_hint={'pos':(-1,-1)}, color=[0,0,1,0])

        self._exposure = Label(text='Exposure: 0', size_hint=(0.2,0.1),
                          pos_hint={'pos':(0,0)})

        self._centroid = Label(text='C:0', size_hint=(0.1,0.1),
                          pos_hint={'pos':(0.79,0.83)}, color=[1,0,0,1])

        self._exposure_slider = Slider(min=0, max=2500, value=333,
                          size_hint=(0.5,0.1),
                          pos_hint={'pos':(0.2,0)}  )

        self._upload_progress = ProgressBar(max=100, size_hint=(0.5,0.1),
                          pos_hint={'pos':(-1,-1)})

        self._camera = CameraD3(resolution=(640,480),
                                fourcc="GREY",
                                capture_resolution=(3872, 2764),
                                capture_fourcc="Y16 ",
                                size_hint=(1,1),
                                pos_hint={'pos':(0,0)},
                                play=True, )

        self._dropdown = DropDown()

        # create a big main button
        self._imageResultsButton = Button(text='Image Explorer',pos_hint={'pos': (0.0, 0.6)}, size_hint=(0.2, 0.1))

        # show the dropdown menu when the main button is released
        # note: all the bind() calls pass the instance of the caller (here, the
        # mainbutton instance) as the first argument of the callback (here,
        # dropdown.open.).
        self._imageResultsButton.bind(on_release=self._dropdown.open)

        # one last thing, listen for the selection in the dropdown list and
        # assign the data to the button text.
        self._dropdown.bind(on_select=lambda instance, x: setattr(self._imageResultsButton, 'text', x))



        # self._camera = CameraD3(resolution=(1280,720),
        #                         play=True, fourcc="GREY")

        # self._camera = CameraD3(resolution=(3872, 2764),
        #                       play=True, fourcc="Y16 ")

        # self._camera = CameraD3(resolution=(1920,1080),
        #                        play=True, fourcc="GREY")

        # self._camera = CameraD3(resolution=(2560, 1920),
        #                        play=True, fourcc="GREY")

        self._histogram = Histogram(
            size_hint=(0.2,0.3), pos_hint={'pos':(0.8,0.6)})

        self._demo.bind(on_press=self._show_demo_results)
        self._toggle.bind(on_press=self._led_toggle)
        self._snap.bind(on_press=self._request_capture)
        self._snapref.bind(on_press=self._request_ref_capture)
        self._exit.bind(on_press=self._exit_app)
        self._auto_centroid.bind(on_press=self._auto_change_exposure)
        self._object_detection.bind(on_press=self._toggle_object_detection)
        self._exposure_slider.bind(value=self._change_exposure)
        self._reset_scatter.bind(on_press=self._do_reset_scatter)

        #update.bind(on_press=self._update_histogram)
        self._camera.fbind('on_frame_complete',self._update_histogram)

        self._scatter = Scatter(size_hint=(None, None), size=(200,200),)
        self._scatter.add_widget(self._camera)
        #layout.add_widget(self._camera)
        layoutInner = FloatLayout(size_hint=(0.8, 1), pos_hint={'x':0,'y':0})
        layoutInner.add_widget(self._scatter)
        layout.add_widget(layoutInner)

        mat = Matrix().scale(10,10,10).translate(0,-150,0)
        self._scatter.apply_transform(mat)
        layout.add_widget(self._imageResultsButton)
        layout.add_widget(self._uploading)
        layout.add_widget(self._uploadingAmt)
        layout.add_widget(self._demo)
        layout.add_widget(self._histogram)
        layout.add_widget(self._snap)
        layout.add_widget(self._snapref)
        layout.add_widget(self._exit)
        layout.add_widget(self._centroid)
        layout.add_widget(self._exposure_slider)
        layout.add_widget(self._upload_progress)
        layout.add_widget(self._auto_centroid)
        layout.add_widget(self._object_detection)
        layout.add_widget(self._reset_scatter)

        layout.add_widget(self._exposure)
        layout.add_widget(self._fps)
        Clock.schedule_interval(self._update_fps, 2)
        layout.add_widget(self._toggle)
        #layout.add_widget(update)

        self._is_updating = False
        self.updateImages()
        return layout
Exemplo n.º 9
0
    def build(self):

        GPIO.setmode(GPIO.BCM)
        GPIO.setup(LED_Pin, GPIO.OUT)
        self._led_state =  GPIO.LOW
        GPIO.output(LED_Pin, self._led_state)

        #layout = BoxLayout(orientation='vertical')
        layout = FloatLayout(size=(800, 480), pos=(0,0))

        self._toggle = ToggleButton(text='LED OFF',
           size_hint=(0.2,0.2), pos_hint={'pos':(0.8,0)})

        self._snap = Button(text='Capture',
           size_hint=(0.2,0.2), pos_hint={'pos':(0.8,0.2)})

        self._snapref = Button(text='Reference',
           size_hint=(0.2,0.2), pos_hint={'pos':(0.8,0.4)})

        self._demo = Button(text='Demo Results',
           size_hint=(0.2,0.1), pos_hint={'pos': (0.0, 0.7)})

        self._auto_centroid = ImageButton(size_hint=(0.1,0.1), pos_hint={'pos':(0.7,0)},
            source='/home/pi/d3-ui/img/distribution_centroid_off.png')

        self._object_detection = ImageButton(size_hint=(0.1,0.1), pos_hint={'pos':(0.7,0.1)},
            source='/home/pi/d3-ui/img/object_detection_off.png')

        self._reset_scatter = ImageButton(size_hint=(0.1,0.1), pos_hint={'pos':(0.7,0.2)},
            source='/home/pi/d3-ui/img/reset_scatter.png')


        self._exit = Button(text='X', size_hint=(0.05,0.05),
                            pos_hint={'pos':(0.95,0.95)})

        self._fps = Label(text='FPS: 0', size_hint=(0.1,0.1),
                          pos_hint={'pos':(0.8,0.9)})
        self._uploading = Label(text='Uploading...', size_hint=(0.2,0.1),
                          pos_hint={'pos':(-1,-1)}, color=[0,0,1,0])
        self._uploadingAmt = Label(text='', size_hint=(0.2,0.1),
                          pos_hint={'pos':(-1,-1)}, color=[0,0,1,0])

        self._exposure = Label(text='Exposure: 0', size_hint=(0.2,0.1),
                          pos_hint={'pos':(0,0)})

        self._centroid = Label(text='C:0', size_hint=(0.1,0.1),
                          pos_hint={'pos':(0.79,0.83)}, color=[1,0,0,1])

        self._exposure_slider = Slider(min=0, max=2500, value=333,
                          size_hint=(0.5,0.1),
                          pos_hint={'pos':(0.2,0)}  )

        self._upload_progress = ProgressBar(max=100, size_hint=(0.5,0.1),
                          pos_hint={'pos':(-1,-1)})

        self._camera = CameraD3(resolution=(640,480),
                                fourcc="GREY",
                                capture_resolution=(3872, 2764),
                                capture_fourcc="Y16 ",
                                size_hint=(1,1),
                                pos_hint={'pos':(0,0)},
                                play=True, )

        self._dropdown = DropDown()

        # create a big main button
        self._imageResultsButton = Button(text='Image Explorer',pos_hint={'pos': (0.0, 0.6)}, size_hint=(0.2, 0.1))

        # show the dropdown menu when the main button is released
        # note: all the bind() calls pass the instance of the caller (here, the
        # mainbutton instance) as the first argument of the callback (here,
        # dropdown.open.).
        self._imageResultsButton.bind(on_release=self._dropdown.open)

        # one last thing, listen for the selection in the dropdown list and
        # assign the data to the button text.
        self._dropdown.bind(on_select=lambda instance, x: setattr(self._imageResultsButton, 'text', x))



        # self._camera = CameraD3(resolution=(1280,720),
        #                         play=True, fourcc="GREY")

        # self._camera = CameraD3(resolution=(3872, 2764),
        #                       play=True, fourcc="Y16 ")

        # self._camera = CameraD3(resolution=(1920,1080),
        #                        play=True, fourcc="GREY")

        # self._camera = CameraD3(resolution=(2560, 1920),
        #                        play=True, fourcc="GREY")

        self._histogram = Histogram(
            size_hint=(0.2,0.3), pos_hint={'pos':(0.8,0.6)})

        self._demo.bind(on_press=self._show_demo_results)
        self._toggle.bind(on_press=self._led_toggle)
        self._snap.bind(on_press=self._request_capture)
        self._snapref.bind(on_press=self._request_ref_capture)
        self._exit.bind(on_press=self._exit_app)
        self._auto_centroid.bind(on_press=self._auto_change_exposure)
        self._object_detection.bind(on_press=self._toggle_object_detection)
        self._exposure_slider.bind(value=self._change_exposure)
        self._reset_scatter.bind(on_press=self._do_reset_scatter)

        #update.bind(on_press=self._update_histogram)
        self._camera.fbind('on_frame_complete',self._update_histogram)

        self._scatter = Scatter(size_hint=(None, None), size=(200,200),)
        self._scatter.add_widget(self._camera)
        #layout.add_widget(self._camera)
        layoutInner = FloatLayout(size_hint=(0.8, 1), pos_hint={'x':0,'y':0})
        layoutInner.add_widget(self._scatter)
        layout.add_widget(layoutInner)

        mat = Matrix().scale(10,10,10).translate(0,-150,0)
        self._scatter.apply_transform(mat)
        layout.add_widget(self._imageResultsButton)
        layout.add_widget(self._uploading)
        layout.add_widget(self._uploadingAmt)
        layout.add_widget(self._demo)
        layout.add_widget(self._histogram)
        layout.add_widget(self._snap)
        layout.add_widget(self._snapref)
        layout.add_widget(self._exit)
        layout.add_widget(self._centroid)
        layout.add_widget(self._exposure_slider)
        layout.add_widget(self._upload_progress)
        layout.add_widget(self._auto_centroid)
        layout.add_widget(self._object_detection)
        layout.add_widget(self._reset_scatter)

        layout.add_widget(self._exposure)
        layout.add_widget(self._fps)
        Clock.schedule_interval(self._update_fps, 2)
        layout.add_widget(self._toggle)
        #layout.add_widget(update)

        self._is_updating = False
        self.updateImages()
        return layout
Exemplo n.º 10
0
class IDSGUI(App):
    def __init__(self):
        super(IDSGUI, self).__init__()
        self._camera = None

    def _led_toggle(self, val):
        if self._led_state == GPIO.LOW:
            self._led_state = GPIO.HIGH
            self._toggle.text = "LED ON"
        else:
            self._led_state = GPIO.LOW
            self._toggle.text = "LED OFF"
        GPIO.output(LED_Pin, self._led_state)

    def _start_count(self, val):
        pass
        # fake_bin = int((np.random.randn() * 100) + 320)
        # self._tracker_histogram.add_track(max(0, min(640, fake_bin)))
        # (x,y) = self._camera.get_roi_offset()
        # self._camera.set_roi_offset(x+50,y+50)

    def _toggle_object_detection(self, val):
        pass

    #     detecting = not self._camera.get_object_detection()
    #     self._camera.set_object_detection(detecting)
    #     if not detecting:
    #         self._object_detection.source = self.img_path('object_detection_off.png')
    #     else:
    #         self._object_detection.source = self.img_path('object_detection_on.png')

    def _change_exposure(self, instance, val):
        pass
        # self._camera.set_exposure(int(val))

    def _do_reset_scatter(self, val):
        # move the
        mat = Matrix().scale(10, 10, 10).translate(0, -150, 0)
        self._scatter.transform = mat

    def _exit_app(self, val):
        # self._camera.play = False
        # give it a 1/4 sec to shu down the camera
        sleep(0.25)
        App.get_running_app().stop()
        import sys
        sys.exit()

    def _update_histogram(self, val):
        pass
        # frame = self._camera.get_current_frame()
        # self._histogram.set_data(frame)

    def _update_fps(self, l):
        pass
        # self._fps.text = "FPS: %d" % self._camera.get_fps()
        # self._temp.text = "Temp: %s" % self._camera.get_temp()
        # self._exposure.text = "Exposure: %d" % self._camera.get_exposure()
        # self._centroid.text = "C: %d" % self._histogram.centroid

    def _update_roi(self, roi, roi2):
        pass
        # roi = self._roi_tracker.roi_Offset
        # self._camera.set_roi_offset(roi[0], roi[1])

    def img_path(self, image_name):
        return os.path.join(os.path.dirname(__file__), 'img', image_name)

    def init_GPIO(self):
        GPIO.setmode(GPIO.BCM)
        GPIO.setup(LED_Pin, GPIO.OUT)
        self._led_state = GPIO.LOW
        GPIO.output(LED_Pin, self._led_state)

    def get_ip_address(self):
        try:
            import socket
            s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
            s.connect(("8.8.8.8", 80))
            addr = s.getsockname()[0]
            s.close()
            return addr
        except:
            return "Error"

    def build(self):
        self.init_GPIO()

        layout = FloatLayout(size=(800, 480), pos=(0, 0))

        self._toggle = ToggleButton(text='LED OFF',
                                    size_hint=(0.2, 0.2),
                                    pos_hint={'pos': (0.8, 0)})

        self._snap = Button(text='COUNT',
                            size_hint=(0.2, 0.2),
                            pos_hint={'pos': (0.8, 0.2)})

        self._object_detection = ImageButton(
            size_hint=(0.1, 0.1),
            pos_hint={'pos': (0.7, 0.0)},
            source=self.img_path('object_detection_off.png'))

        self._reset_scatter = ImageButton(
            size_hint=(0.1, 0.1),
            pos_hint={'pos': (0.7, 0.1)},
            source=self.img_path('reset_scatter.png'))

        self._logo = Image(size_hint=(0.3, 0.2),
                           pos_hint={'pos': (-0.03, 0.84)},
                           source=self.img_path('ids.png'))

        self._exit = ImageButton(size_hint=(0.05, 0.05),
                                 pos_hint={'pos': (0.96, 0.95)},
                                 source=self.img_path('close-white.png'))

        red, white, kivy_blue = (1, 0, 0, 1), (1, 1, 1,
                                               1), (51. / 255, 164. / 255,
                                                    206. / 255, 1)

        self._fps = Label(text='FPS: 0',
                          size_hint=(0.1, 0.1),
                          pos_hint={'pos': (0.8, 0.9)},
                          color=red)
        self._temp = Label(text='Temp: 0',
                           size_hint=(0.1, 0.1),
                           pos_hint={'pos': (0.6, 0.9)},
                           color=white)

        dev_ip = self.get_ip_address()

        self._ip = Label(text='IP: %s' % dev_ip,
                         size_hint=(0.1, 0.1),
                         pos_hint={'pos': (0.4, 0.9)},
                         color=white)
        self._exposure = Label(text='Exposure: 0',
                               size_hint=(0.2, 0.1),
                               pos_hint={'pos': (0, 0)})

        self._centroid = Label(text='C:0',
                               size_hint=(0.1, 0.1),
                               pos_hint={'pos': (0.79, 0.83)},
                               color=white)

        self._exposure_slider = Slider(min=0,
                                       max=2500,
                                       value=1358,
                                       size_hint=(0.5, 0.1),
                                       pos_hint={'pos': (0.2, 0)})

        # self._camera = Camera2131(resolution=(1280,960),
        #                           fourcc="GREY",
        #                           capture_resolution=(3872, 2764),
        #                           capture_fourcc="Y16 ",
        #                           size_hint=(1,1),
        #                           pos_hint={'pos':(0,0)},
        #                           play=True, )

        # self._camera = CameraIDS(resolution=(640, 480),
        #                           fourcc="GREY",
        #                           capture_resolution=(640, 480),
        #                           capture_fourcc="GREY",
        #                           size_hint=(1,1),
        #                           pos_hint={'pos':(0,0)},
        #                           play=True)

        self._histogram = Histogram(size_hint=(0.2, 0.25),
                                    pos_hint={'pos': (0.8, 0.65)})

        self._tracker_histogram = TrackerHistogram(
            size_hint=(0.2, 0.25), pos_hint={'pos': (0.8, 0.4)})

        # self._roi_tracker = ROITracker(self._camera.resolution,
        #     size_hint=(0.2,0.25), pos_hint={'pos':(0.02,0.6)})
        # self._roi_tracker.bind(roi_Offset=self._update_roi)

        # self._demo.bind(on_press=self._show_demo_results)
        self._toggle.bind(on_press=self._led_toggle)
        self._snap.bind(on_press=self._start_count)
        self._exit.bind(on_press=self._exit_app)
        self._object_detection.bind(on_press=self._toggle_object_detection)
        self._exposure_slider.bind(value=self._change_exposure)
        self._reset_scatter.bind(on_press=self._do_reset_scatter)

        # self._camera.fbind('on_frame_complete',self._update_histogram)

        self._scatter = Scatter(
            size_hint=(None, None),
            size=(200, 200),
        )
        # self._scatter.add_widget(self._camera)
        # layoutInner = FloatLayout(size_hint=(0.8, 1), pos_hint={'x':0,'y':0})
        # layoutInner.add_widget(self._scatter)
        layout.add_widget(self._scatter)

        mat = Matrix().scale(10, 10, 10).translate(0, -150, 0)
        self._scatter.apply_transform(mat)
        layout.add_widget(self._histogram)
        layout.add_widget(self._tracker_histogram)
        layout.add_widget(self._snap)
        layout.add_widget(self._exit)
        layout.add_widget(self._exposure_slider)
        layout.add_widget(self._object_detection)
        layout.add_widget(self._reset_scatter)

        layout.add_widget(self._exposure)
        layout.add_widget(self._fps)
        layout.add_widget(self._temp)
        layout.add_widget(self._ip)
        Clock.schedule_interval(self._update_fps, 2)
        layout.add_widget(self._toggle)
        layout.add_widget(self._logo)
        # layout.add_widget(self._roi_tracker)
        self._is_updating = False
        return layout
Exemplo n.º 11
0
    def build(self):
        self.init_GPIO()

        layout = FloatLayout(size=(800, 480), pos=(0, 0))

        self._toggle = ToggleButton(text='LED OFF',
                                    size_hint=(0.2, 0.2),
                                    pos_hint={'pos': (0.8, 0)})

        self._snap = Button(text='COUNT',
                            size_hint=(0.2, 0.2),
                            pos_hint={'pos': (0.8, 0.2)})

        self._object_detection = ImageButton(
            size_hint=(0.1, 0.1),
            pos_hint={'pos': (0.7, 0.0)},
            source=self.img_path('object_detection_off.png'))

        self._reset_scatter = ImageButton(
            size_hint=(0.1, 0.1),
            pos_hint={'pos': (0.7, 0.1)},
            source=self.img_path('reset_scatter.png'))

        self._logo = Image(size_hint=(0.3, 0.2),
                           pos_hint={'pos': (-0.03, 0.84)},
                           source=self.img_path('ids.png'))

        self._exit = ImageButton(size_hint=(0.05, 0.05),
                                 pos_hint={'pos': (0.96, 0.95)},
                                 source=self.img_path('close-white.png'))

        red, white, kivy_blue = (1, 0, 0, 1), (1, 1, 1,
                                               1), (51. / 255, 164. / 255,
                                                    206. / 255, 1)

        self._fps = Label(text='FPS: 0',
                          size_hint=(0.1, 0.1),
                          pos_hint={'pos': (0.8, 0.9)},
                          color=red)
        self._temp = Label(text='Temp: 0',
                           size_hint=(0.1, 0.1),
                           pos_hint={'pos': (0.6, 0.9)},
                           color=white)

        dev_ip = self.get_ip_address()

        self._ip = Label(text='IP: %s' % dev_ip,
                         size_hint=(0.1, 0.1),
                         pos_hint={'pos': (0.4, 0.9)},
                         color=white)
        self._exposure = Label(text='Exposure: 0',
                               size_hint=(0.2, 0.1),
                               pos_hint={'pos': (0, 0)})

        self._centroid = Label(text='C:0',
                               size_hint=(0.1, 0.1),
                               pos_hint={'pos': (0.79, 0.83)},
                               color=white)

        self._exposure_slider = Slider(min=0,
                                       max=2500,
                                       value=1358,
                                       size_hint=(0.5, 0.1),
                                       pos_hint={'pos': (0.2, 0)})

        # self._camera = Camera2131(resolution=(1280,960),
        #                           fourcc="GREY",
        #                           capture_resolution=(3872, 2764),
        #                           capture_fourcc="Y16 ",
        #                           size_hint=(1,1),
        #                           pos_hint={'pos':(0,0)},
        #                           play=True, )

        # self._camera = CameraIDS(resolution=(640, 480),
        #                           fourcc="GREY",
        #                           capture_resolution=(640, 480),
        #                           capture_fourcc="GREY",
        #                           size_hint=(1,1),
        #                           pos_hint={'pos':(0,0)},
        #                           play=True)

        self._histogram = Histogram(size_hint=(0.2, 0.25),
                                    pos_hint={'pos': (0.8, 0.65)})

        self._tracker_histogram = TrackerHistogram(
            size_hint=(0.2, 0.25), pos_hint={'pos': (0.8, 0.4)})

        # self._roi_tracker = ROITracker(self._camera.resolution,
        #     size_hint=(0.2,0.25), pos_hint={'pos':(0.02,0.6)})
        # self._roi_tracker.bind(roi_Offset=self._update_roi)

        # self._demo.bind(on_press=self._show_demo_results)
        self._toggle.bind(on_press=self._led_toggle)
        self._snap.bind(on_press=self._start_count)
        self._exit.bind(on_press=self._exit_app)
        self._object_detection.bind(on_press=self._toggle_object_detection)
        self._exposure_slider.bind(value=self._change_exposure)
        self._reset_scatter.bind(on_press=self._do_reset_scatter)

        # self._camera.fbind('on_frame_complete',self._update_histogram)

        self._scatter = Scatter(
            size_hint=(None, None),
            size=(200, 200),
        )
        # self._scatter.add_widget(self._camera)
        # layoutInner = FloatLayout(size_hint=(0.8, 1), pos_hint={'x':0,'y':0})
        # layoutInner.add_widget(self._scatter)
        layout.add_widget(self._scatter)

        mat = Matrix().scale(10, 10, 10).translate(0, -150, 0)
        self._scatter.apply_transform(mat)
        layout.add_widget(self._histogram)
        layout.add_widget(self._tracker_histogram)
        layout.add_widget(self._snap)
        layout.add_widget(self._exit)
        layout.add_widget(self._exposure_slider)
        layout.add_widget(self._object_detection)
        layout.add_widget(self._reset_scatter)

        layout.add_widget(self._exposure)
        layout.add_widget(self._fps)
        layout.add_widget(self._temp)
        layout.add_widget(self._ip)
        Clock.schedule_interval(self._update_fps, 2)
        layout.add_widget(self._toggle)
        layout.add_widget(self._logo)
        # layout.add_widget(self._roi_tracker)
        self._is_updating = False
        return layout
Exemplo n.º 12
0
class ToolsPanel(StackLayout):

    btn_create_stream = ''
    btn_create_node = ''

    def __init__(self, **kwargs):
        super(ToolsPanel, self).__init__(**kwargs)

        self.medium = kwargs.get('medium', '')
        self.orientation = 'tb-lr'
        btn_size = "30px"

        self.btn_create_stream = ToggleButton(
            size=(btn_size, btn_size),
            size_hint=(None, None),
            background_normal='images/stream_up.png',
            background_down='images/stream_down.png',
            border=(0,0,0,0),
            group='tools',
            state='normal')

        self.btn_create_node = ToggleButton(
            size=(btn_size, btn_size),
            size_hint=(None, None),
            background_normal='images/node_up.png',
            background_down='images/node_down.png',
            border=(0,0,0,0),
            group='tools',
            state='normal')

        self.btn_create_link = ToggleButton(
            size=(btn_size, btn_size),
            size_hint=(None, None),
            background_normal='images/link_up.png',
            background_down='images/link_down.png',
            border=(0,0,0,0),
            group='tools',
            state='normal')

        self.btn_settings = Button(
            size=(btn_size, btn_size),
            size_hint=(None, None),
            background_normal='images/gear_up.png',
            background_down='images/gear_down.png',
            border=(0,0,0,0))

        # self.btn_multi_select = ToggleButton(
        #     size=(btn_size, btn_size),
        #     size_hint=(None, None),
        #     border=(0,0,0,0),
        #     group='tools',
        #     state='normal')

        self.add_widget(self.btn_create_stream)
        self.add_widget(self.btn_create_node)
        self.add_widget(self.btn_create_link)
        self.add_widget(self.btn_settings)
        # self.add_widget(self.btn_multi_select)

        self.spacing=(10, 10)
        self.padding=(10, 10)

        self.btn_create_stream.bind(on_release=partial(self.medium.on_btn_create_stream_released, self.btn_create_stream))
        self.btn_create_node.bind(on_release=partial(self.medium.on_btn_create_node_released, self.btn_create_node))
        self.btn_create_link.bind(on_release=partial(self.medium.on_btn_create_link_released, self.btn_create_link))
        self.btn_settings.bind(on_release=partial(self.medium.on_btn_settings_released, self.btn_settings))
Exemplo n.º 13
0
    def _create_popup(self, instance):
        # create the popup
        content = BoxLayout(orientation='vertical', spacing='5dp')
        popup_width = min(0.95 * Window.width, dp(700))
        self.popup = Popup(content=content,
                           title=self.title,
                           size_hint=(None, None),
                           size=(popup_width, '400dp'))
        self.popup.height = 0.95 * Window.height

        # add all the options
        #content.add_widget(Widget(size_hint_y=None, height=1))
        scrolls_box = BoxLayout(orientation='horizontal', spacing='5dp')
        layout_all = GridLayout(cols=1,
                                padding=5,
                                spacing=5,
                                size_hint=(None, None))
        layout_all.bind(minimum_height=layout_all.setter('height'))
        scroll_all = ScrollView(size_hint=(None, None),
                                size=(300, 320),
                                pos_hint={
                                    'center_x': .5,
                                    'center_y': .5
                                },
                                do_scroll_x=False)
        lex_gen = (lex[0] for lex in lexers.get_all_lexers())
        for lex in lex_gen:
            btn = Button(text=str(lex), size=(300, 30), size_hint=(None, None))
            btn.bind(on_release=self._add_lang)
            layout_all.add_widget(btn)
        scroll_all.add_widget(layout_all)
        scrolls_box.add_widget(scroll_all)

        layout_use = GridLayout(cols=1,
                                padding=5,
                                spacing=5,
                                size_hint=(None, None))
        layout_use.bind(minimum_height=layout_use.setter('height'))
        scroll_use = ScrollView(size_hint=(None, None),
                                size=(300, 320),
                                pos_hint={
                                    'center_x': .5,
                                    'center_y': .5
                                },
                                do_scroll_x=False)
        for opt in self.options:
            btn = Button(text=str(opt), size=(300, 30), size_hint=(None, None))
            btn.bind(on_release=self._rm_lang)
            layout_use.add_widget(btn)

        scroll_use.add_widget(layout_use)
        scrolls_box.add_widget(scroll_use)
        content.add_widget(scrolls_box)

        btn_ok = Button(text='OK', size_hint_y=None, height=dp(50))
        btn_ok.bind(on_release=self._set_option)

        btn_cl = Button(text='Cancel', size_hint_y=None, height=dp(50))
        btn_cl.bind(on_release=self.popup.dismiss)
        content.add_widget(btn_ok)
        content.add_widget(btn_cl)

        # and open the popup !
        self.popup.open()