def _on_drag_ended(self, sender, pos_change):
        """
        Called when a drag on an axis has ended.

        :type sender: ChartAxis
        :type pos_change: tuple[float, float]
        """
        drag_pos = self._on_dragged(sender=sender, pos_change=pos_change)
        # Check if the axis or the aid line got this event.
        if not isinstance(sender, InteractiveDivNode):
            axis = sender
            aid_line = self.__newly_added_aid_lines.pop(axis)
            self.__newly_added_aid_line_pos.pop(aid_line)
        else:
            aid_line = sender

        new_pos, in_border_area = self._check_aid_line_pos(
            drag_pos, self.__orientation)
        if in_border_area:
            self.__aid_lines.pop(aid_line, None)
            aid_line.unlink(True)
            if self._intersection_config.show_intersections:
                self._remove_intersections()
                self._draw_intersections(intersections=self._get_intersections(
                    aid_line_orientations=[self.__orientation] *
                    len(self.__aid_lines),
                    aid_line_positions=[
                        a.pos for a in self.__aid_lines.keys()
                    ]))

            StudyLog.get_instance().write_event_log(
                'An {} axis drag aid line in chart {} was deleted.'.format(
                    'horizontal'
                    if self.__orientation is Orientation.Horizontal else
                    'vertical', self._chart.view_id))
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    def __on_cursor_up(self, event):
        """
        Called when a cursor up was recognized on this view.

        :type event: CursorEvent
        """
        StudyLog.get_instance().write_device_canvas_touch(
            self.__device, "CURSOR UP", event)
        self.dispatch(self.__CURSOR_UP, sender=self, event=event)

        if not self.__event:
            return
        if self.__event.cursorid != event.cursorid:
            return

        self.__event_id = None
        self.__event = None
        self.__event_movement_dist = None

        self.__hold_active = False
        if self.__double_tap_hold_active:
            StudyLog.get_instance().write_device_canvas_event(
                self.__device, "DOUBLE TAP HOLD END")
            self.dispatch(self.__DOUBLE_TAP_HOLD_END, sender=self)
        self.__double_tap_hold_active = False
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    def __on_double_tap(self, outer_call=False):
        """
        Called when double tap was recognized.

        :param outer_call: If this double tap was caused from an call outside this class.
        :type outer_call: bool
        """
        if not outer_call:
            StudyLog.get_instance().write_event_log('A DoD was {} (by double tap).'.format("opened" if self.__point_model.level_of_detail == 0 else "closed"))
        self.__point_model.level_of_detail = 1 if self.__point_model.level_of_detail == 0 else 0
        self.__was_tap_before = False
Exemple #4
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    def __on_swipe_up(self):
        """
        Called when a swipe to the right was recognized.
        """
        if self.__hold_active or self.__double_tap_hold_active:
            return

        event_time = player.getFrameTime() - self.__event_time
        if event_time > self.__device_pointer_config.swipe_max_time:
            return

        StudyLog.get_instance().write_device_canvas_event(
            self.__device, "SWIPE UP")
        self.dispatch(self.__SWIPE, sender=self, direction=SwipeRecognizer.UP)
    def __on_all_test_nodes_clicked(self, sender):
        """
        Called when all nodes in the test touch view were touched.

        :type sender: TouchTestView
        """
        if not self.__touch_test_view:
            return

        self.__touch_test_view.active = False
        if sender is not None:
            StudyLog.get_instance().write_event_log(
                'The touch test view was successfully passed.')
        player.setTimeout(1, lambda: self.__draw_main_view())
Exemple #6
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    def __on_drag_end(self):
        """
        Called when a drag has ended.
        """
        StudyLog.get_instance().write_device_canvas_event(
            self.__device, "DRAG END")

        self.__last_drag_offset = (0, 0)
        self.__hold_active = False

        if self.__double_tap_hold_active:
            StudyLog.get_instance().write_device_canvas_event(
                self.__device, "DOUBLE TAP HOLD END")
            self.dispatch(self.__DOUBLE_TAP_HOLD_END, sender=self)
        self.__double_tap_hold_active = False
    def __on_swipe_down(self, sender):
        """
        Called when a swipe down occurred.
        Deletes aid lines or hides the detail view of map points.

        :param sender: The device that caused this event.
        :type sender: Device
        """
        grid_element_div = self.__multi_view_node.get_grid_element_from_pos(
            (sender.pos_screen_x, sender.pos_screen_y))
        # Look for a grid element under the cursor.
        if not grid_element_div:
            return
        for vis_view in grid_element_div.child_nodes:
            rel_pos = grid_element_div.get_rel_pos(
                (sender.pos_screen_x, sender.pos_screen_y))
            if isinstance(vis_view, MapVisView):
                element = vis_view.getElementByPos(rel_pos)
                # Show the detail view of the map point.
                if isinstance(element, avg.ImageNode):
                    map_point_view = self.__get_parent_from_node_with_type(
                        element, MapPointView, MapVisView)
                    if map_point_view:
                        map_point_view.show_detail_view(False)
                        StudyLog.get_instance().write_event_log(
                            'A DoD was closed (by swipe).')
                else:
                    map_point_detail_view = self.__get_parent_from_node_with_type(
                        element, MapPointDetailView, MapVisView)
                    if map_point_detail_view:
                        map_point_detail_view.map_point_view.show_detail_view(
                            False)
                        StudyLog.get_instance().write_event_log(
                            'A DoD was closed (by swipe).')

            # Aid line deletion.
            elif isinstance(vis_view, ChartBase):
                for aid_line_type in [
                        AidLineType.Deposit, AidLineType.DepositVertical,
                        AidLineType.DepositHorizontal, AidLineType.AxisDragX,
                        AidLineType.AxisDragY
                ]:
                    vis_view.invoke_aid_line_controller_event(
                        event_name=DepositAidLine.DELETE_AID_LINE,
                        aid_line_controller_type=aid_line_type,
                        pos=rel_pos)
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    def __on_cursor_motion(self, event):
        """
        Called when a cursor motion was recognized on this view.

        :type event: CursorEvent
        """
        StudyLog.get_instance().write_device_canvas_touch(
            self.__device, "CURSOR MOTION", event)
        self.dispatch(self.__CURSOR_MOTION, sender=self, event=event)

        if not self.__event:
            return
        if self.__event.cursorid != event.cursorid:
            return

        self.__event = event
        if event.contact.distancefromstart > self.__event_movement_dist:
            self.__event_movement_dist = event.contact.distancefromstart
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    def _on_add_aid_line(self, pos):
        """
        Creates an aid line at the given pos.

        :param pos: The pos to create a aid line on.
        :type pos: tuple[float, float]
        """
        if not (self._aid_line_area[0] <= pos[0] <= self._aid_line_area[2] and
                self._aid_line_area[1] <= pos[1] <= self._aid_line_area[3]):
            return

        h_aid_line = self._draw_horizontal_aid_line(pos=pos)
        v_aid_line = self._draw_vertical_aid_line(pos=pos)

        if h_aid_line:
            self._horizontal_aid_lines.append(h_aid_line)
        if v_aid_line:
            self._vertical_aid_lines.append(v_aid_line)

        # Draw the intersections and the labels.
        if self._intersection_config.show_intersections:
            aid_line_values = {
                a.pos: Orientation.Horizontal
                for a in self._horizontal_aid_lines
            }
            aid_line_values.update({
                a.pos: Orientation.Vertical
                for a in self._vertical_aid_lines
            })
            intersections = self._get_intersections(
                aid_line_orientations=aid_line_values.values(),
                aid_line_positions=aid_line_values.keys())
            self._remove_intersections()
            self._draw_intersections(intersections=intersections)
        if self._aid_line_config.show_label:
            if h_aid_line:
                self._draw_label(aid_line_div=h_aid_line,
                                 orientation=Orientation.Horizontal)
            if v_aid_line:
                self._draw_label(aid_line_div=v_aid_line,
                                 orientation=Orientation.Vertical)

        StudyLog.get_instance().write_event_log(
            'An desposite aid line was created.')
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    def __on_drag(self, offset):
        """
        Called when a drag has started.

        :param offset: The offset to the start pos.
        :type offset: tuple[float, float]
        """
        if self.__hold_active:
            return

        pos_change = offset[0] - self.__last_drag_offset[0], offset[
            1] - self.__last_drag_offset[1]
        self.__last_drag_offset = offset

        event = self.__DOUBLE_TAP_HOLD_DRAG if self.__double_tap_hold_active else self.__DRAG
        if self.__double_tap_hold_active:
            StudyLog.get_instance().write_device_canvas_event(
                self.__device, "DOUBLE TAP HOLD DRAG")
        self.dispatch(event, sender=self, pos_change=pos_change)
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def inject_touch_event(event_type, pos, event_id):
    """
    Injects a touch event in the system.

    :param event_type: The type of event to inject.
    :type event_type: int
    :param pos: The position the event should take place.
    :type pos: tuple[float, float]
    :param event_id: The id for the event.
    :type event_id: int
    """
    # print "Inject event: id={!s}, type={!s}, pos={!s}".format(event_id, event_type, pos)

    global __helper
    if config_app.study_mode:
        StudyLog.get_instance().write_touch(pos_x=pos[0],
                                            pos_y=pos[1],
                                            event_type=event_type,
                                            to_injection=True)
    __helper.fakeTouchEvent(event_id, event_type, avg.Event.TOUCH, pos)
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    def on_frame(self):
        """
        Needed to be called every frame.
        """
        if not self.__event:
            return
        if self.__double_tap_hold_active or self.__hold_active:
            return

        now = player.getFrameTime()
        down_time = now - self.__event_time
        if down_time <= self.__device_pointer_config.hold_delay:
            return
        if self.__event_movement_dist > self.__device_pointer_config.hold_max_dist * player.getPixelsPerMM(
        ):
            return

        else:
            self.__hold_active = True
            StudyLog.get_instance().write_device_canvas_event(
                self.__device, "HOLD")
            self.dispatch(self.__HOLD, sender=self, event=self.__event)
    def _on_axis_drag_started(self, sender):
        """
        Called when a drag on an axis has started.

        :type sender: ChartAxis
        """
        axis = sender
        # Only allow one aid line to be created from one axis at a time.
        if axis in self.__newly_added_aid_lines:
            return
        # Check which axis this is:
        # Set the size of the line node.
        if self.__orientation is Orientation.Horizontal:
            aid_line = self._draw_horizontal_aid_line(pos=axis.pos)
            StudyLog.get_instance().write_event_log(
                'An horizontal axis drag aid line in chart {} was created.'.
                format(self._chart.view_id))
        else:
            aid_line = self._draw_vertical_aid_line(pos=axis.pos)
            StudyLog.get_instance().write_event_log(
                'An vertical axis drag aid line in chart {} was created.'.
                format(self._chart.view_id))

        self.__newly_added_aid_lines[axis] = aid_line
        self.__newly_added_aid_line_pos[aid_line] = aid_line.pos
        # Check which axis this is.
        self.__aid_lines[aid_line] = axis

        # Draw the intersections and the labels.
        if self._intersection_config.show_intersections:
            self._remove_intersections()
            self._draw_intersections(intersections=self._get_intersections(
                aid_line_orientations=[self.__orientation] *
                len(self.__aid_lines),
                aid_line_positions=[a.pos for a in self.__aid_lines.keys()]))
        if self._aid_line_config.show_label:
            self._draw_label(aid_line_div=aid_line,
                             orientation=self.__orientation)
Exemple #14
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    def __on_cursor_down(self, event):
        """
        Called when a cursor down was recognized on this view.

        :type event: CursorEvent
        """
        StudyLog.get_instance().write_device_canvas_touch(
            self.__device, "CURSOR DOWN", event)
        self.dispatch(self.__CURSOR_DOWN, sender=self, event=event)

        if self.__event:
            return

        self.__event = event
        self.__event_id = event.cursorid
        if player.getFrameTime(
        ) - self.__last_tap_time < self.__device_pointer_config.double_tap_hold_max_time:
            self.__double_tap_hold_active = True
            StudyLog.get_instance().write_device_canvas_event(
                self.__device, "DOUBLE TAP HOLD")
            self.dispatch(self.__DOUBLE_TAP_HOLD, sender=self, event=event)
        else:
            self.__event_time = player.getFrameTime()
            self.__event_movement_dist = 0
Exemple #15
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    def _on_delete_aid_line(self, pos):
        """
        Deletes an aid line at the pos, if an aid line lies there.

        :param pos: The pos to create a aid line on.
        :type pos: tuple[float, float]
        """
        if not (self._aid_line_area[0] <= pos[0] <= self._aid_line_area[2] and
                self._aid_line_area[1] <= pos[1] <= self._aid_line_area[3]):
            return

        aid_lines_to_remove = []
        for i in range(len(self._horizontal_aid_lines)):
            horizontal_aid_line = self._horizontal_aid_lines[i]
            line_node = horizontal_aid_line.getChild(0)
            aid_line_size = (line_node.pos1[0], horizontal_aid_line.pos[1] -
                             line_node.strokewidth / 2, line_node.pos2[0],
                             horizontal_aid_line.pos[1] +
                             line_node.strokewidth / 2)
            if aid_line_size[0] <= pos[0] <= aid_line_size[
                    2] and aid_line_size[1] <= pos[1] <= aid_line_size[3]:
                if i not in aid_lines_to_remove:
                    aid_lines_to_remove.append(i)

        for i in range(len(self._vertical_aid_lines)):
            vertical_aid_line = self._vertical_aid_lines[i]
            line_node = vertical_aid_line.getChild(0)
            aid_line_size = (vertical_aid_line.pos[0] -
                             line_node.strokewidth / 2, line_node.pos1[1],
                             vertical_aid_line.pos[0] +
                             line_node.strokewidth / 2, line_node.pos2[1])
            if aid_line_size[0] <= pos[0] <= aid_line_size[
                    2] and aid_line_size[1] <= pos[1] <= aid_line_size[3]:
                if i not in aid_lines_to_remove:
                    aid_lines_to_remove.append(i)

        removed = 0
        for i in aid_lines_to_remove:
            i -= removed
            yet_removed = 0

            if 0 <= i < len(self._horizontal_aid_lines):
                yet_removed = 1
                self._horizontal_aid_lines.pop(i).unlink(True)
            if i < len(self._vertical_aid_lines):
                yet_removed = 1
                self._vertical_aid_lines.pop(i).unlink(True)

            removed -= yet_removed

        if self._intersection_config.show_intersections:
            self._remove_intersections()
            aid_line_values = {
                a.pos: Orientation.Horizontal
                for a in self._horizontal_aid_lines
            }
            aid_line_values.update({
                a.pos: Orientation.Vertical
                for a in self._vertical_aid_lines
            })
            self._draw_intersections(
                self._get_intersections(
                    aid_line_orientations=aid_line_values.values(),
                    aid_line_positions=aid_line_values.keys()))

        StudyLog.get_instance().write_event_log(
            'An desposite aid line was deleted.')
 def __on_close_button_clicked(self):
     """
     Called when a tap on the close button has happened.
     """
     self.__map_point_view.show_detail_view(False)
     StudyLog.get_instance().write_event_log('A DoD was closed (by close button).')
    def __draw_main_view(self, fake=False):
        """
        Draws the main vis view.

        :param fake: Should the fake or the original data set be loaded?
        :type fake: bool
        """
        if self.__touch_test_view:
            self.__touch_test_view.unlink(True)
            self.__touch_test_view = None

        self.__wall_divico = WallDivico(
            parent=self,
            size=self.size,
            map_image_info=config_app.maps_images[config_app.map_image],
            data_file=config_app.sql_result_dump_filename[
                config_app.data_mode_string],
            grid_groups=self.__grid_groups,
            grid_labels=self.__grid_labels)

        self.__task_text_view_canvas = player.createCanvas(
            id="task_text_view",
            autorender=True,
            multisamplesamples=8,
            size=(self.size[0], self.size[1] / 12))
        text = [
            "{} ({})".format(self._study_handler.current_block_name,
                             self._study_handler.current_phase)
        ] if self._study_handler else []
        self.__task_text_view = TextView2(
            text_elements=text,
            alignment="center",
            font_size=42,
            element_size=900,
            parent=self.__task_text_view_canvas.getRootNode(),
            size=(self.size[0], self.size[1] / 12),
            padding_top=20,
            padding_bottom=20,
            element_offset=50,
            # elementoutlinecolor="f00"
        )
        self.__task_text_view_image_top = avg.ImageNode(
            parent=self,
            size=(self.size[0], self.size[1] / 12),
            href="canvas:task_text_view")
        self.__task_text_view_image_bottom = avg.ImageNode(
            parent=self,
            pos=(0, self.size[1] * 11 / 12),
            size=(self.size[0], self.size[1] / 12),
            href="canvas:task_text_view")
        self.__phase_block_label = avg.WordsNode(
            parent=self,
            pos=(3, self.size[1] - 20),
            fontsize=15,
            color="555",
            alignment="left",
            variant="bold",
            rawtextmode=True,
            text="#{} - {}: {}".format(config_app.SESSION,
                                       self._study_handler.current_phase,
                                       self._study_handler.current_block_name)
            if self._study_handler else "")
        self.__interaction_activation_label = avg.WordsNode(parent=self,
                                                            pos=(3, 3),
                                                            fontsize=15,
                                                            color="555",
                                                            alignment="left",
                                                            variant="bold",
                                                            rawtextmode=True,
                                                            text="")

        self.__create_touch_vis_view()

        # initialize StudyLogging
        if config_app.study_mode:
            StudyLog.get_instance().write_event_log(
                "initialized view and divico control")

            self.subscribe(
                avg.Node.CURSOR_DOWN, lambda event: self.__log_touch(
                    event, event_type="CURSOR_DOWN"))
            self.subscribe(
                avg.Node.CURSOR_MOTION,
                lambda event: self.__log_touch(event,
                                               event_type="CURSOR_MOTION"))
            self.subscribe(
                avg.Node.CURSOR_UP,
                lambda event: self.__log_touch(event, event_type="CURSOR_UP"))
 def __log_touch(event, event_type="-1"):
     # print "event node: ", self.getElementByPos(event.pos)
     StudyLog.get_instance().write_touch(event.x, event.y, event.userid,
                                         event_type)
    def __on_key_down(self, event):
        """
        Called when a key input was recognized.
        """
        shift = event.modifiers & avg.KEYMOD_LSHIFT or event.modifiers & avg.KEYMOD_RSHIFT
        strg = event.modifiers & avg.KEYMOD_LCTRL or event.modifiers & avg.KEYMOD_RCTRL

        # For the normal interaction with the application.
        if event.keyname == 'A' and not strg and not shift:
            key_message = [
                v['msg'] for v in self.__key_messages if v['keys'] == ['A']
            ]
            if len(key_message) != 0:
                StudyLog.get_instance().write_event_log(key_message[0])

            self.sensitive = True
            self.__interaction_activation_label.text = ""

        # For the normal interaction with the application.
        if event.keyname == 'D' and not strg and not shift:
            key_message = [
                v['msg'] for v in self.__key_messages if v['keys'] == ['D']
            ]
            if len(key_message) != 0:
                StudyLog.get_instance().write_event_log(key_message[0])

            self.sensitive = False
            self.__interaction_activation_label.text = "Touch interactions deactivated"

        if event.keyname == 'V' and not strg and not shift:
            key_message = [
                v['msg'] for v in self.__key_messages if v['keys'] == ['V']
            ]
            if len(key_message) != 0:
                StudyLog.get_instance().write_event_log(key_message[0])

            if self.__touch_visualization_overlay:
                self.__touch_visualization_overlay.active = not self.__touch_visualization_overlay.active
                if self.__touch_visualization_overlay.active:
                    self.reorderChild(self.__touch_visualization_overlay,
                                      self.getNumChildren() - 1)
            else:
                self.__create_touch_vis_view()

        if event.keyname == 'T' and not strg and not shift:
            if self.__touch_test_view and self.__touch_test_view.active:
                key_message = [
                    v['msg'] for v in self.__key_messages
                    if v['keys'] == ['T']
                ]
                if len(key_message) != 0:
                    StudyLog.get_instance().write_event_log(key_message[0])

                self.__on_all_test_nodes_clicked(None)

        if event.keyname == 'R' and not strg and not shift:
            key_message = [
                v['msg'] for v in self.__key_messages if v['keys'] == ['R']
            ]
            if len(key_message) != 0:
                StudyLog.get_instance().write_event_log(key_message[0])

            self.__wall_divico.divico_control.reset()

        # For the interaction with the application if study mode is true.
        if self._study_handler:
            if event.keyname == 'H' and not strg and not shift:
                key_message = [
                    v['msg'] for v in self.__key_messages
                    if v['keys'] == ['H']
                ]
                if len(key_message) != 0:
                    StudyLog.get_instance().write_event_log(key_message[0])

            if event.keyname == 'Escape' and not strg and not shift:
                key_message = [
                    v['msg'] for v in self.__key_messages
                    if v['keys'] == ['Escape']
                ]
                if len(key_message) != 0:
                    StudyLog.get_instance().write_event_log(key_message[0])

            # Change the phase
            if shift and event.keyname in ['1', '2', '3', '4'] and not strg:
                self._study_handler.go_to_phase(
                    self._study_handler.phases[int(event.keyname) - 1])

                self.__task_text_view.text_alignment = "center"
                self.__task_text_view.font_colors = []
                text = self._study_handler.current_block_name
                text = text if "Training" not in self._study_handler.current_phase else text + " ({})".format(
                    self._study_handler.current_phase)
                self.__task_text_view.text_elements = [text]
                self.__task_text_view.draw()

                self.__phase_block_label.text = "#{} - {}: {}".format(
                    config_app.SESSION, self._study_handler.current_phase,
                    self._study_handler.current_block_name)

                key_message = [
                    v['msg'] for v in self.__key_messages
                    if event.keyname in v['keys'] and 'shift' in v['keys']
                ]
                if len(key_message) != 0:
                    StudyLog.get_instance().write_event_log(
                        key_message[0] + self.__phase_block_label.text)

            # Switch through the blocks of a phase.
            if event.keyname in ['Up', 'Down'] and not shift and not strg:
                self._study_handler.go_to_neighbor_block(-1 if event.keyname ==
                                                         'Up' else 1)

                self.__task_text_view.text_alignment = "center"
                self.__task_text_view.font_colors = []
                self.__task_text_view.text_elements = [
                    self._study_handler.current_block_name
                ]
                self.__task_text_view.draw()

                self.__phase_block_label.text = "#{} - {}: {}".format(
                    config_app.SESSION, self._study_handler.current_phase,
                    self._study_handler.current_block_name)

                key_message = [
                    v['msg'] for v in self.__key_messages
                    if v['keys'] == [event.keyname]
                ]
                if len(key_message) != 0:
                    StudyLog.get_instance().write_event_log(
                        key_message[0] +
                        self._study_handler.current_block_name)

            # Check/uncheck a task in a block.
            if event.keyname in [str(i) for i in range(1, 10)
                                 ] and not shift and not strg:
                if not (len(self.__task_text_view.text_elements) == 1
                        and self._study_handler.current_block_name
                        in self.__task_text_view.text_elements[0]):
                    index = int(event.keyname) - 1
                    if index < len(self.__task_text_view.text_elements):
                        current_color = self.__task_text_view.font_colors[
                            index]
                        new_color = colors.GREY_DARKEN_3 if current_color != colors.GREY_DARKEN_3 else self.__task_text_view.default_font_color
                        self.__task_text_view.font_colors[index] = new_color

                    self.__task_text_view.draw()

                    if index < len(self._study_handler.current_tasks):
                        key_message = [
                            v['msg'] for v in self.__key_messages
                            if event.keyname in v['keys'] and 'strg' not in
                            v['keys'] and 'shift' not in v['keys']
                        ]
                        if len(key_message) != 0:
                            StudyLog.get_instance().write_event_log(
                                "{}{} - {}".format(
                                    key_message[0], event.keyname,
                                    self._study_handler.current_tasks[index].
                                    encode('utf-8')))

            # Go inside a block and show its task.
            if event.keyname == 'Return' and not shift and not strg:
                self.__task_text_view.text_elements = self._study_handler.current_tasks
                if "Guided" in self._study_handler.current_phase:
                    self.__task_text_view.text_alignment = "left"
                elif "Free" in self._study_handler.current_phase:
                    self.__task_text_view.text_alignment = "center"
                elif "Training" in self._study_handler.current_phase:
                    self.__task_text_view.text_alignment = "left"
                    user = "******" if self._study_handler.phases.index(
                        self._study_handler.current_phase) == 0 else "N2"

                    tasks = self._study_handler.current_tasks if user == "N1" else list(
                        reversed(self._study_handler.current_tasks))
                    colors = [
                        (colors.AMBER if t.startswith(user) else colors.CYAN)
                        for t in tasks
                    ]
                    tasks = [t[3:] for t in tasks]

                    self.__task_text_view.font_colors = colors + [
                        colors.WHITE
                    ] + colors
                    self.__task_text_view.text_elements = tasks + [""] + tasks
                self.__task_text_view.draw()

                key_message = [
                    v['msg'] for v in self.__key_messages
                    if v['keys'] == ['Return']
                ]
                if len(key_message) != 0:
                    StudyLog.get_instance().write_event_log(
                        key_message[0] +
                        self._study_handler.current_block_name)
Exemple #20
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 def __on_tap(self):
     """
     Called when a tap event has occurred.
     """
     self.__last_tap_time = player.getFrameTime()
     StudyLog.get_instance().write_device_canvas_event(self.__device, "TAP")
    def onFrame(self):
        if self.__wall_divico:
            self.__wall_divico.divico_control.on_frame()

        if config_app.study_mode:
            StudyLog.get_instance().on_frame()
Exemple #22
0
    def __update_position(self):
        if self.__mapping is PositionMapping.Orthogonal:
            self.__pos_screen = (float(self.__pos_space.pos_x) *
                                 self.__pixel_per_cm,
                                 float(self.__pos_space.pos_y) *
                                 self.__pixel_per_cm)

            # temp. calculation for surface in wall labor needed!
            # self.__pos_screen = (self.__pos_space.pos_x,self.__pos_space.pos_y)

        elif self.__mapping is PositionMapping.Interpolation:
            # pitch influences y value; yaw influences x value

            # dx = tan(self.pitch) * self.pos_space_z * -1  # *-1 because x direction is negative
            # pitch left wall corner: 0.8; right wall corner: -0.8
            pitch = self.__one_euro_filter_pitch(self.pitch, time.time())
            dx = self.map_value(pitch, config_app.pitch_min_max)

            # dy = tan(self.roll) * self.pos_space_z
            # top of wall: roll = -0.7; bottom of wall: 0.7
            roll = self.__one_euro_filter_roll(self.roll, time.time())
            dy = self.map_value(roll, config_app.roll_min_max)

            self.__pos_screen = (
                float(self.__pos_space.pos_x) * self.__pixel_per_cm + dx,
                float(self.__pos_space.pos_y) * self.__pixel_per_cm + dy)
        elif self.__mapping in [
                PositionMapping.Perspective,
                PositionMapping.Perspective_Weighted
        ]:
            # Get all necessary values.
            position = glm.vec3(
                self.pos_space_x,
                # Invert the space y coordinate because it was inverted in the optitrack_receiver before.
                config_app.display_height_cm - self.pos_space_y,
                self.pos_space_z)
            if self.__smoothing is SmoothingTyp.Quaternion:
                vec_orientation = glm.quat(
                    self.__one_euro_filter_quat_1(self.__orientation_quat[0],
                                                  time.time()),
                    self.__one_euro_filter_quat_2(self.__orientation_quat[1],
                                                  time.time()),
                    self.__one_euro_filter_quat_3(self.__orientation_quat[2],
                                                  time.time()),
                    self.__one_euro_filter_quat_4(self.__orientation_quat[3],
                                                  time.time()))
            else:
                vec_orientation = glm.quat(self.__orientation_quat[0],
                                           self.__orientation_quat[1],
                                           self.__orientation_quat[2],
                                           self.__orientation_quat[3])

            if self.__mapping is PositionMapping.Perspective_Weighted:
                vec_orientation_unit = glm.quat(-1, 0, 0, 0)

                weight = (position.z - self.weighted_front_dist_cm) / (
                    self.weighted_back_dist_cm - self.weighted_front_dist_cm)
                weight = max(min(weight, 1), 0)
                vec_orientation = glm.quat.slerp(vec_orientation_unit,
                                                 vec_orientation, weight)

            # -1 for the z coordinate to prevent that the device "stands" behind the wall.
            vec_rotation = vec_orientation * glm.vec3(0, 0, -position.z)

            # Calculate a factor for the rotation.
            if vec_rotation.z != 0:
                # -1 for the z coordinate to prevent that the device "stands" behind the wall.
                factor = -position.z / vec_rotation.z
            else:
                factor = -1
            # Calculate the new pointing position.
            if factor <= 0:
                pos_pointed = position * -1
            else:
                pos_pointed = position + (vec_rotation * factor)

            # Convert the cm to pixels.
            pos_pointed *= self.__pixel_per_cm
            # Invert the y position to match it with the wall coordinate system
            pos_pointed.y = config_app.app_resolution[1] - pos_pointed.y

            if self.__smoothing is SmoothingTyp.Pixel:
                # Interpolate the pixels.
                pos_pointed_inter = ((pos_pointed.x /
                                      config_app.app_resolution[0]),
                                     (pos_pointed.y /
                                      (config_app.app_resolution[1])))
                pos_pointed_inter = (max(min(pos_pointed_inter[0], 1), 0),
                                     max(min(pos_pointed_inter[1], 1), 0))
                # Use the filter on the interpolation.
                pos_pointed_inter = (self.__one_euro_filter_screen_x_inter(
                    pos_pointed_inter[0], time.time()),
                                     self.__one_euro_filter_screen_y_inter(
                                         pos_pointed_inter[1], time.time()))
                # Calculate it back.
                pos_pointed = glm.vec3(
                    config_app.app_resolution[0] * pos_pointed_inter[0],
                    config_app.app_resolution[1] * pos_pointed_inter[1], 0)

            # Clamp the pointer position to the resolution of the application.
            # b1 = glm.vec3(0, config_app.app_resolution[1] / 12, 0)
            b1 = glm.vec3(0, 0, 0)
            b2 = glm.vec3(config_app.app_resolution[0],
                          config_app.app_resolution[1] * 11.0 / 12.0, 0)
            if (pos_pointed.x < b1.x or pos_pointed.x > b2.x
                    or pos_pointed.y < b1.y or pos_pointed.y > b2.y):
                pos_pointed.x = max(pos_pointed.x, b1.x)
                pos_pointed.x = min(pos_pointed.x, b2.x)
                pos_pointed.y = max(pos_pointed.y, b1.y)
                pos_pointed.y = min(pos_pointed.y, b2.y)

            self.__pos_screen = pos_pointed.x, pos_pointed.y

        for callback in self.__callbacks_device_moved:
            callback(sender=self,
                     pos_space=self.__pos_space,
                     pos_screen=self.__pos_screen)

        if config_app.study_mode:
            StudyLog.get_instance().write_device(self)