def create_linear_meter(self, name): """ Create linear method :param name: meter name """ config = self.meter_config[name] if config[CHANNELS] == 2: meter = Meter(self.util, TYPE_LINEAR, config[UI_REFRESH_PERIOD], self.data_source) meter.channels = 2 meter.left_x = config[LEFT_X] meter.left_y = config[LEFT_Y] meter.right_x = config[RIGHT_X] meter.right_y = config[RIGHT_Y] else: meter = Meter(self.util, TYPE_LINEAR, config[UI_REFRESH_PERIOD], self.data_source) meter.x = config[MONO_X] meter.y = config[MONO_Y] meter.positions_regular = config[POSITION_REGULAR] meter.step_width_regular = config[STEP_WIDTH_REGULAR] if POSITION_OVERLOAD in config: meter.positions_overload = config[POSITION_OVERLOAD] meter.step_width_overload = config[STEP_WIDTH_OVERLOAD] else: meter.positions_overload = 0 meter.step_width_overload = 0 meter.total_steps = meter.positions_regular + meter.positions_overload + 1 meter.step = 100 / meter.total_steps meter.add_background(config[BGR_FILENAME]) if config[CHANNELS] == 2: meter.add_channel(config[INDICATOR_FILENAME], meter.left_x, meter.left_y) meter.add_channel(config[INDICATOR_FILENAME], meter.right_x, meter.right_y) else: meter.add_channel(config[INDICATOR_FILENAME], meter.x, meter.y) meter.add_foreground(config[FGR_FILENAME]) factory = MaskFactory() meter.masks = factory.create_masks(meter.positions_regular, meter.positions_overload, meter.step_width_regular, meter.step_width_overload) return meter
def create_circular_meter(self, name): """ Create circular method :param name: meter name """ config = self.meter_config[name] if config[CHANNELS] == 2: meter = Meter(self.util, TYPE_CIRCULAR, config[UI_REFRESH_PERIOD], self.data_source) meter.channels = 2 else: meter = Meter(self.util, TYPE_CIRCULAR, config[UI_REFRESH_PERIOD], self.data_source) meter.steps_per_degree = config[STEPS_PER_DEGREE] start_angle = config[START_ANGLE] stop_angle = config[STOP_ANGLE] meter.incr = (abs(start_angle) + abs(stop_angle)) / 100 meter.add_background(config[BGR_FILENAME]) needle = meter.load_image(config[INDICATOR_FILENAME])[1] factory = NeedleFactory(needle, config) meter.needle_sprites = factory.needle_sprites if config[CHANNELS] == 2: meter.left_needle_rects = factory.left_needle_rects meter.right_needle_rects = factory.right_needle_rects meter.left_needle_rects = factory.left_needle_rects s = meter.needle_sprites[0] r = meter.left_needle_rects[0] meter.add_image(s, 0, 0, r) r = meter.right_needle_rects[0] meter.add_image(s, 0, 0, r) else: meter.mono_needle_rects = factory.mono_needle_rects s = meter.needle_sprites[0] r = meter.mono_needle_rects[0] meter.add_image(s, 0, 0, r) if config[FGR_FILENAME]: meter.add_foreground(config[FGR_FILENAME]) return meter
def create_linear_meter(self, name): """ Create linear method :param name: meter name """ config = self.meter_config[name] if config[CHANNELS] == 2: meter = Meter(self.util, TYPE_LINEAR, config[UI_REFRESH_PERIOD], self.data_source) meter.channels = 2 meter.left_x = config[LEFT_X] meter.left_y = config[LEFT_Y] meter.right_x = config[RIGHT_X] meter.right_y = config[RIGHT_Y] else: meter = Meter(self.util, TYPE_LINEAR, config[UI_REFRESH_PERIOD], self.data_source) meter.x = config[MONO_X] meter.y = config[MONO_Y] meter.positions_regular = config[POSITION_REGULAR] meter.step_width_regular = config[STEP_WIDTH_REGULAR] if POSITION_OVERLOAD in config: meter.positions_overload = config[POSITION_OVERLOAD] meter.step_width_overload = config[STEP_WIDTH_OVERLOAD] else: meter.positions_overload = 0 meter.step_width_overload = 0 meter.total_steps = meter.positions_regular + meter.positions_overload + 1 meter.step = 100/meter.total_steps meter.add_background(config[BGR_FILENAME]) if config[CHANNELS] == 2: meter.add_channel(config[INDICATOR_FILENAME], meter.left_x, meter.left_y) meter.add_channel(config[INDICATOR_FILENAME], meter.right_x, meter.right_y) else: meter.add_channel(config[INDICATOR_FILENAME], meter.x, meter.y) meter.add_foreground(config[FGR_FILENAME]) factory = MaskFactory() meter.masks = factory.create_masks(meter.positions_regular, meter.positions_overload, meter.step_width_regular, meter.step_width_overload) return meter