class CursorPoller(object): """Get 'pressed' and location updates from a D-Pad/joystick device.""" def __init__(self, splash, cursor_bmp): logging.getLogger('Paint').debug('Creating a CursorPoller') self._mouse_cursor = Cursor(board.DISPLAY, display_group=splash, bmp=cursor_bmp, cursor_speed=2) self._x_offset = cursor_bmp.width // 2 self._y_offset = cursor_bmp.height // 2 self._cursor = DebouncedCursorManager(self._mouse_cursor) self._logger = logging.getLogger('Paint') def poll(self): """Check for input. Returns press (a bool) and it's location ((x,y) or None)""" location = None self._cursor.update() button = self._cursor.held if button: location = (self._mouse_cursor.x + self._x_offset, self._mouse_cursor.y + self._y_offset) return button, location def poke(self, x=None, y=None): """Force a bitmap refresh.""" self._mouse_cursor.hide() self._mouse_cursor.show()
def __init__(self, splash, cursor_bmp): logging.getLogger("Paint").debug("Creating a CursorPoller") self._mouse_cursor = Cursor( board.DISPLAY, display_group=splash, bmp=cursor_bmp, cursor_speed=2 ) self._x_offset = cursor_bmp.width // 2 self._y_offset = cursor_bmp.height // 2 self._cursor = DebouncedCursorManager(self._mouse_cursor) self._logger = logging.getLogger("Paint")
def __init__(self) -> None: self.root_group = displayio.Group() self._display = board.DISPLAY self._background_group = displayio.Group() self.root_group.append(self._background_group) self._text_group = displayio.Group() self.root_group.append(self._text_group) self._button_group = displayio.Group() self.root_group.append(self._button_group) if self._display.height > 250: self._text_group.scale = 2 self._button_group.scale = 2 self._speaker_enable = DigitalInOut(board.SPEAKER_ENABLE) self._speaker_enable.switch_to_output(False) if hasattr(board, "AUDIO_OUT"): self.audio = audioio.AudioOut(board.AUDIO_OUT) elif hasattr(board, "SPEAKER"): self.audio = audioio.AudioOut(board.SPEAKER) else: raise AttributeError("Board does not have an audio output!") self._background_file = None self._wavfile = None try: self._display.auto_brightness = False except AttributeError: pass self.backlight_fade(0) self._display.show(self.root_group) self.touchscreen = None self.mouse_cursor = None if hasattr(board, "TOUCH_XL"): self.touchscreen = adafruit_touchscreen.Touchscreen( board.TOUCH_XL, board.TOUCH_XR, board.TOUCH_YD, board.TOUCH_YU, calibration=((5200, 59000), (5800, 57000)), size=(self._display.width, self._display.height), ) elif hasattr(board, "BUTTON_CLOCK"): self.mouse_cursor = Cursor(self._display, display_group=self.root_group, cursor_speed=8) self.cursor = CursorManager(self.mouse_cursor) else: raise AttributeError("PYOA requires a touchscreen or cursor.") self._gamedirectory = None self._gamefilename = None self._game = None self._text = None self._background_sprite = None self._text_font = None self._left_button = None self._right_button = None self._middle_button = None
class CursorPoller(object): """Get 'pressed' and location updates from a D-Pad/joystick device.""" def __init__(self, splash, cursor_bmp): logging.getLogger('Paint').debug('Creating a CursorPoller') self._mouse_cursor = Cursor(board.DISPLAY, display_group=splash, bmp=cursor_bmp, cursor_speed=2) self._x_offset = cursor_bmp.width // 2 self._y_offset = cursor_bmp.height // 2 self._cursor = DebouncedCursorManager(self._mouse_cursor) self._logger = logging.getLogger('Paint') def poll(self): """Check for input. Returns press of A (a bool), B, and the cursor location ((x,y) or None)""" location = None self._cursor.update() a_button = self._cursor.held if a_button: location = (self._mouse_cursor.x + self._x_offset, self._mouse_cursor.y + self._y_offset) return a_button, location #pylint:disable=unused-argument def poke(self, x=None, y=None): """Force a bitmap refresh.""" self._mouse_cursor.hide() self._mouse_cursor.show() #pylint:enable=unused-argument def set_cursor_bitmap(self, bmp): """Update the cursor bitmap. :param bmp: the new cursor bitmap """ self._mouse_cursor.cursor_bitmap = bmp self.poke()
def __init__(self): self.root_group = displayio.Group(max_size=15) self._background_group = displayio.Group(max_size=1) self.root_group.append(self._background_group) self._text_group = displayio.Group(max_size=1) self.root_group.append(self._text_group) self._button_group = displayio.Group(max_size=2) self.root_group.append(self._button_group) self._speaker_enable = DigitalInOut(board.SPEAKER_ENABLE) self._speaker_enable.switch_to_output(False) if hasattr(board, 'AUDIO_OUT'): self.audio = audioio.AudioOut(board.AUDIO_OUT) elif hasattr(board, 'SPEAKER'): self.audio = audioio.AudioOut(board.SPEAKER) else: raise AttributeError('Board does not have an audio output!') self._background_file = None self._wavfile = None board.DISPLAY.auto_brightness = False self.backlight_fade(0) board.DISPLAY.show(self.root_group) self.touchscreen = None if hasattr(board, 'TOUCH_XL'): self.touchscreen = adafruit_touchscreen.Touchscreen( board.TOUCH_XL, board.TOUCH_XR, board.TOUCH_YD, board.TOUCH_YU, calibration=((5200, 59000), (5800, 57000)), size=(320, 240)) elif hasattr(board, 'BUTTON_CLOCK'): self.mouse_cursor = Cursor(board.DISPLAY, display_group=self.root_group, cursor_speed=8) self.cursor = CursorManager(self.mouse_cursor) else: raise AttributeError('PYOA requires a touchscreen or cursor.') self._gamedirectory = None self._gamefilename = None self._game = None self._text = None self._background_sprite = None self._text_font = None self._left_button = None self._right_button = None self._middle_button = None
import time import board import displayio from adafruit_cursorcontrol.cursorcontrol import Cursor from adafruit_cursorcontrol.cursorcontrol_cursormanager import CursorManager # Create the display display = board.DISPLAY # Create the display context splash = displayio.Group(max_size=5) # initialize the mouse cursor object mouse_cursor = Cursor(display, display_group=splash) # initialize the cursormanager cursor = CursorManager(mouse_cursor) # show displayio group display.show(splash) while True: cursor.update() if cursor.is_clicked: if mouse_cursor.hidden: mouse_cursor.show() else: mouse_cursor.hide() time.sleep(0.01)
def __init__(self, *, url=None, headers=None, json_path=None, regexp_path=None, default_bg=0x000000, status_neopixel=None, text_font=None, text_position=None, text_color=0x808080, text_wrap=False, text_maxlen=0, text_transform=None, json_transform=None, image_json_path=None, image_resize=None, image_position=None, caption_text=None, caption_font=None, caption_position=None, caption_color=0x808080, image_url_path=None, success_callback=None, esp=None, external_spi=None, debug=False): self._debug = debug try: if hasattr(board, 'TFT_BACKLIGHT'): self._backlight = pulseio.PWMOut(board.TFT_BACKLIGHT) # pylint: disable=no-member elif hasattr(board, 'TFT_LITE'): self._backlight = pulseio.PWMOut(board.TFT_LITE) # pylint: disable=no-member except ValueError: self._backlight = None self.set_backlight(1.0) # turn on backlight self._url = url self._headers = headers if json_path: if isinstance(json_path[0], (list, tuple)): self._json_path = json_path else: self._json_path = (json_path, ) else: self._json_path = None self._regexp_path = regexp_path self._success_callback = success_callback if status_neopixel: self.neopix = neopixel.NeoPixel(status_neopixel, 1, brightness=0.2) else: self.neopix = None self.neo_status(0) try: os.stat(LOCALFILE) self._uselocal = True except OSError: self._uselocal = False if self._debug: print("Init display") self.splash = displayio.Group(max_size=15) if self._debug: print("Init background") self._bg_group = displayio.Group(max_size=1) self._bg_file = None self._default_bg = default_bg self.splash.append(self._bg_group) # show thank you and bootup file if available for bootscreen in ("/thankyou.bmp", "/pyportal_startup.bmp"): try: os.stat(bootscreen) board.DISPLAY.show(self.splash) for i in range(100, -1, -1): # dim down self.set_backlight(i / 100) time.sleep(0.005) self.set_background(bootscreen) board.DISPLAY.wait_for_frame() for i in range(100): # dim up self.set_backlight(i / 100) time.sleep(0.005) time.sleep(2) except OSError: pass # they removed it, skip! self._speaker_enable = DigitalInOut(board.SPEAKER_ENABLE) self._speaker_enable.switch_to_output(False) if hasattr(board, 'AUDIO_OUT'): self.audio = audioio.AudioOut(board.AUDIO_OUT) elif hasattr(board, 'SPEAKER'): self.audio = audioio.AudioOut(board.SPEAKER) else: raise AttributeError('Board does not have a builtin speaker!') try: self.play_file("pyportal_startup.wav") except OSError: pass # they deleted the file, no biggie! if esp: # If there was a passed ESP Object if self._debug: print("Passed ESP32 to PyPortal") self._esp = esp if external_spi: #If SPI Object Passed spi = external_spi else: # Else: Make ESP32 connection spi = busio.SPI(board.SCK, board.MOSI, board.MISO) else: if self._debug: print("Init ESP32") esp32_ready = DigitalInOut(board.ESP_BUSY) esp32_gpio0 = DigitalInOut(board.ESP_GPIO0) esp32_reset = DigitalInOut(board.ESP_RESET) esp32_cs = DigitalInOut(board.ESP_CS) spi = busio.SPI(board.SCK, board.MOSI, board.MISO) self._esp = adafruit_esp32spi.ESP_SPIcontrol( spi, esp32_cs, esp32_ready, esp32_reset, esp32_gpio0) #self._esp._debug = 1 for _ in range(3): # retries try: print("ESP firmware:", self._esp.firmware_version) break except RuntimeError: print("Retrying ESP32 connection") time.sleep(1) self._esp.reset() else: raise RuntimeError("Was not able to find ESP32") requests.set_socket(socket, self._esp) if url and not self._uselocal: self._connect_esp() if self._debug: print("My IP address is", self._esp.pretty_ip(self._esp.ip_address)) # set the default background self.set_background(self._default_bg) board.DISPLAY.show(self.splash) if self._debug: print("Init SD Card") sd_cs = DigitalInOut(board.SD_CS) self._sdcard = None try: self._sdcard = adafruit_sdcard.SDCard(spi, sd_cs) vfs = storage.VfsFat(self._sdcard) storage.mount(vfs, "/sd") except OSError as error: print("No SD card found:", error) self._qr_group = None # Tracks whether we've hidden the background when we showed the QR code. self._qr_only = False if self._debug: print("Init caption") self._caption = None if caption_font: self._caption_font = bitmap_font.load_font(caption_font) self.set_caption(caption_text, caption_position, caption_color) if text_font: if isinstance(text_position[0], (list, tuple)): num = len(text_position) if not text_wrap: text_wrap = [0] * num if not text_maxlen: text_maxlen = [0] * num if not text_transform: text_transform = [None] * num else: num = 1 text_position = (text_position, ) text_color = (text_color, ) text_wrap = (text_wrap, ) text_maxlen = (text_maxlen, ) text_transform = (text_transform, ) self._text = [None] * num self._text_color = [None] * num self._text_position = [None] * num self._text_wrap = [None] * num self._text_maxlen = [None] * num self._text_transform = [None] * num self._text_font = bitmap_font.load_font(text_font) if self._debug: print("Loading font glyphs") # self._text_font.load_glyphs(b'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz' # b'0123456789:/-_,. ') gc.collect() for i in range(num): if self._debug: print("Init text area", i) self._text[i] = None self._text_color[i] = text_color[i] self._text_position[i] = text_position[i] self._text_wrap[i] = text_wrap[i] self._text_maxlen[i] = text_maxlen[i] self._text_transform[i] = text_transform[i] else: self._text_font = None self._text = None # Add any JSON translators self._json_transform = [] if json_transform: if callable(json_transform): self._json_transform.append(json_transform) else: self._json_transform.extend(filter(callable, json_transform)) self._image_json_path = image_json_path self._image_url_path = image_url_path self._image_resize = image_resize self._image_position = image_position if image_json_path or image_url_path: if self._debug: print("Init image path") if not self._image_position: self._image_position = (0, 0) # default to top corner if not self._image_resize: self._image_resize = (320, 240) # default to full screen if hasattr(board, 'TOUCH_XL'): if self._debug: print("Init touchscreen") # pylint: disable=no-member self.touchscreen = adafruit_touchscreen.Touchscreen( board.TOUCH_XL, board.TOUCH_XR, board.TOUCH_YD, board.TOUCH_YU, calibration=((5200, 59000), (5800, 57000)), size=(320, 240)) # pylint: enable=no-member self.set_backlight(1.0) # turn on backlight elif hasattr(board, 'BUTTON_CLOCK'): if self._debug: print("Init cursor") self.mouse_cursor = Cursor(board.DISPLAY, display_group=self.splash, cursor_speed=8) self.mouse_cursor.hide() self.cursor = CursorManager(self.mouse_cursor) else: raise AttributeError( 'PyPortal module requires either a touchscreen or gamepad.') gc.collect()
class PyPortal: """Class representing the Adafruit PyPortal. :param url: The URL of your data source. Defaults to ``None``. :param headers: The headers for authentication, typically used by Azure API's. :param json_path: The list of json traversal to get data out of. Can be list of lists for multiple data points. Defaults to ``None`` to not use json. :param regexp_path: The list of regexp strings to get data out (use a single regexp group). Can be list of regexps for multiple data points. Defaults to ``None`` to not use regexp. :param default_bg: The path to your default background image file or a hex color. Defaults to 0x000000. :param status_neopixel: The pin for the status NeoPixel. Use ``board.NEOPIXEL`` for the on-board NeoPixel. Defaults to ``None``, no status LED :param str text_font: The path to your font file for your data text display. :param text_position: The position of your extracted text on the display in an (x, y) tuple. Can be a list of tuples for when there's a list of json_paths, for example :param text_color: The color of the text, in 0xRRGGBB format. Can be a list of colors for when there's multiple texts. Defaults to ``None``. :param text_wrap: Whether or not to wrap text (for long text data chunks). Defaults to ``False``, no wrapping. :param text_maxlen: The max length of the text for text wrapping. Defaults to 0. :param text_transform: A function that will be called on the text before display :param json_transform: A function or a list of functions to call with the parsed JSON. Changes and additions are permitted for the ``dict`` object. :param image_json_path: The JSON traversal path for a background image to display. Defaults to ``None``. :param image_resize: What size to resize the image we got from the json_path, make this a tuple of the width and height you want. Defaults to ``None``. :param image_position: The position of the image on the display as an (x, y) tuple. Defaults to ``None``. :param success_callback: A function we'll call if you like, when we fetch data successfully. Defaults to ``None``. :param str caption_text: The text of your caption, a fixed text not changed by the data we get. Defaults to ``None``. :param str caption_font: The path to the font file for your caption. Defaults to ``None``. :param caption_position: The position of your caption on the display as an (x, y) tuple. Defaults to ``None``. :param caption_color: The color of your caption. Must be a hex value, e.g. ``0x808000``. :param image_url_path: The HTTP traversal path for a background image to display. Defaults to ``None``. :param esp: A passed ESP32 object, Can be used in cases where the ESP32 chip needs to be used before calling the pyportal class. Defaults to ``None``. :param busio.SPI external_spi: A previously declared spi object. Defaults to ``None``. :param debug: Turn on debug print outs. Defaults to False. """ # pylint: disable=too-many-instance-attributes, too-many-locals, too-many-branches, too-many-statements def __init__(self, *, url=None, headers=None, json_path=None, regexp_path=None, default_bg=0x000000, status_neopixel=None, text_font=None, text_position=None, text_color=0x808080, text_wrap=False, text_maxlen=0, text_transform=None, json_transform=None, image_json_path=None, image_resize=None, image_position=None, caption_text=None, caption_font=None, caption_position=None, caption_color=0x808080, image_url_path=None, success_callback=None, esp=None, external_spi=None, debug=False): self._debug = debug try: if hasattr(board, 'TFT_BACKLIGHT'): self._backlight = pulseio.PWMOut(board.TFT_BACKLIGHT) # pylint: disable=no-member elif hasattr(board, 'TFT_LITE'): self._backlight = pulseio.PWMOut(board.TFT_LITE) # pylint: disable=no-member except ValueError: self._backlight = None self.set_backlight(1.0) # turn on backlight self._url = url self._headers = headers if json_path: if isinstance(json_path[0], (list, tuple)): self._json_path = json_path else: self._json_path = (json_path, ) else: self._json_path = None self._regexp_path = regexp_path self._success_callback = success_callback if status_neopixel: self.neopix = neopixel.NeoPixel(status_neopixel, 1, brightness=0.2) else: self.neopix = None self.neo_status(0) try: os.stat(LOCALFILE) self._uselocal = True except OSError: self._uselocal = False if self._debug: print("Init display") self.splash = displayio.Group(max_size=15) if self._debug: print("Init background") self._bg_group = displayio.Group(max_size=1) self._bg_file = None self._default_bg = default_bg self.splash.append(self._bg_group) # show thank you and bootup file if available for bootscreen in ("/thankyou.bmp", "/pyportal_startup.bmp"): try: os.stat(bootscreen) board.DISPLAY.show(self.splash) for i in range(100, -1, -1): # dim down self.set_backlight(i / 100) time.sleep(0.005) self.set_background(bootscreen) board.DISPLAY.wait_for_frame() for i in range(100): # dim up self.set_backlight(i / 100) time.sleep(0.005) time.sleep(2) except OSError: pass # they removed it, skip! self._speaker_enable = DigitalInOut(board.SPEAKER_ENABLE) self._speaker_enable.switch_to_output(False) if hasattr(board, 'AUDIO_OUT'): self.audio = audioio.AudioOut(board.AUDIO_OUT) elif hasattr(board, 'SPEAKER'): self.audio = audioio.AudioOut(board.SPEAKER) else: raise AttributeError('Board does not have a builtin speaker!') try: self.play_file("pyportal_startup.wav") except OSError: pass # they deleted the file, no biggie! if esp: # If there was a passed ESP Object if self._debug: print("Passed ESP32 to PyPortal") self._esp = esp if external_spi: #If SPI Object Passed spi = external_spi else: # Else: Make ESP32 connection spi = busio.SPI(board.SCK, board.MOSI, board.MISO) else: if self._debug: print("Init ESP32") esp32_ready = DigitalInOut(board.ESP_BUSY) esp32_gpio0 = DigitalInOut(board.ESP_GPIO0) esp32_reset = DigitalInOut(board.ESP_RESET) esp32_cs = DigitalInOut(board.ESP_CS) spi = busio.SPI(board.SCK, board.MOSI, board.MISO) self._esp = adafruit_esp32spi.ESP_SPIcontrol( spi, esp32_cs, esp32_ready, esp32_reset, esp32_gpio0) #self._esp._debug = 1 for _ in range(3): # retries try: print("ESP firmware:", self._esp.firmware_version) break except RuntimeError: print("Retrying ESP32 connection") time.sleep(1) self._esp.reset() else: raise RuntimeError("Was not able to find ESP32") requests.set_socket(socket, self._esp) if url and not self._uselocal: self._connect_esp() if self._debug: print("My IP address is", self._esp.pretty_ip(self._esp.ip_address)) # set the default background self.set_background(self._default_bg) board.DISPLAY.show(self.splash) if self._debug: print("Init SD Card") sd_cs = DigitalInOut(board.SD_CS) self._sdcard = None try: self._sdcard = adafruit_sdcard.SDCard(spi, sd_cs) vfs = storage.VfsFat(self._sdcard) storage.mount(vfs, "/sd") except OSError as error: print("No SD card found:", error) self._qr_group = None # Tracks whether we've hidden the background when we showed the QR code. self._qr_only = False if self._debug: print("Init caption") self._caption = None if caption_font: self._caption_font = bitmap_font.load_font(caption_font) self.set_caption(caption_text, caption_position, caption_color) if text_font: if isinstance(text_position[0], (list, tuple)): num = len(text_position) if not text_wrap: text_wrap = [0] * num if not text_maxlen: text_maxlen = [0] * num if not text_transform: text_transform = [None] * num else: num = 1 text_position = (text_position, ) text_color = (text_color, ) text_wrap = (text_wrap, ) text_maxlen = (text_maxlen, ) text_transform = (text_transform, ) self._text = [None] * num self._text_color = [None] * num self._text_position = [None] * num self._text_wrap = [None] * num self._text_maxlen = [None] * num self._text_transform = [None] * num self._text_font = bitmap_font.load_font(text_font) if self._debug: print("Loading font glyphs") # self._text_font.load_glyphs(b'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz' # b'0123456789:/-_,. ') gc.collect() for i in range(num): if self._debug: print("Init text area", i) self._text[i] = None self._text_color[i] = text_color[i] self._text_position[i] = text_position[i] self._text_wrap[i] = text_wrap[i] self._text_maxlen[i] = text_maxlen[i] self._text_transform[i] = text_transform[i] else: self._text_font = None self._text = None # Add any JSON translators self._json_transform = [] if json_transform: if callable(json_transform): self._json_transform.append(json_transform) else: self._json_transform.extend(filter(callable, json_transform)) self._image_json_path = image_json_path self._image_url_path = image_url_path self._image_resize = image_resize self._image_position = image_position if image_json_path or image_url_path: if self._debug: print("Init image path") if not self._image_position: self._image_position = (0, 0) # default to top corner if not self._image_resize: self._image_resize = (320, 240) # default to full screen if hasattr(board, 'TOUCH_XL'): if self._debug: print("Init touchscreen") # pylint: disable=no-member self.touchscreen = adafruit_touchscreen.Touchscreen( board.TOUCH_XL, board.TOUCH_XR, board.TOUCH_YD, board.TOUCH_YU, calibration=((5200, 59000), (5800, 57000)), size=(320, 240)) # pylint: enable=no-member self.set_backlight(1.0) # turn on backlight elif hasattr(board, 'BUTTON_CLOCK'): if self._debug: print("Init cursor") self.mouse_cursor = Cursor(board.DISPLAY, display_group=self.splash, cursor_speed=8) self.mouse_cursor.hide() self.cursor = CursorManager(self.mouse_cursor) else: raise AttributeError( 'PyPortal module requires either a touchscreen or gamepad.') gc.collect() def set_headers(self, headers): """Set the headers used by fetch(). :param headers: The new header dictionary """ self._headers = headers def set_background(self, file_or_color, position=None): """The background image to a bitmap file. :param file_or_color: The filename of the chosen background image, or a hex color. """ print("Set background to ", file_or_color) while self._bg_group: self._bg_group.pop() if not position: position = (0, 0) # default in top corner if not file_or_color: return # we're done, no background desired if self._bg_file: self._bg_file.close() if isinstance(file_or_color, str): # its a filenme: self._bg_file = open(file_or_color, "rb") background = displayio.OnDiskBitmap(self._bg_file) try: self._bg_sprite = displayio.TileGrid( background, pixel_shader=displayio.ColorConverter(), position=position) except TypeError: self._bg_sprite = displayio.TileGrid( background, pixel_shader=displayio.ColorConverter(), x=position[0], y=position[1]) elif isinstance(file_or_color, int): # Make a background color fill color_bitmap = displayio.Bitmap(320, 240, 1) color_palette = displayio.Palette(1) color_palette[0] = file_or_color try: self._bg_sprite = displayio.TileGrid( color_bitmap, pixel_shader=color_palette, position=(0, 0)) except TypeError: self._bg_sprite = displayio.TileGrid( color_bitmap, pixel_shader=color_palette, x=position[0], y=position[1]) else: raise RuntimeError("Unknown type of background") self._bg_group.append(self._bg_sprite) board.DISPLAY.refresh_soon() gc.collect() board.DISPLAY.wait_for_frame() def set_backlight(self, val): """Adjust the TFT backlight. :param val: The backlight brightness. Use a value between ``0`` and ``1``, where ``0`` is off, and ``1`` is 100% brightness. """ val = max(0, min(1.0, val)) if self._backlight: self._backlight.duty_cycle = int(val * 65535) else: board.DISPLAY.auto_brightness = False board.DISPLAY.brightness = val def preload_font(self, glyphs=None): # pylint: disable=line-too-long """Preload font. :param glyphs: The font glyphs to load. Defaults to ``None``, uses alphanumeric glyphs if None. """ # pylint: enable=line-too-long if not glyphs: glyphs = b'0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ-!,. "\'?!' print("Preloading font glyphs:", glyphs) if self._text_font: self._text_font.load_glyphs(glyphs) def set_caption(self, caption_text, caption_position, caption_color): # pylint: disable=line-too-long """A caption. Requires setting ``caption_font`` in init! :param caption_text: The text of the caption. :param caption_position: The position of the caption text. :param caption_color: The color of your caption text. Must be a hex value, e.g. ``0x808000``. """ # pylint: enable=line-too-long if self._debug: print("Setting caption to", caption_text) if (not caption_text) or (not self._caption_font) or ( not caption_position): return # nothing to do! if self._caption: self._caption._update_text(str(caption_text)) # pylint: disable=protected-access board.DISPLAY.refresh_soon() board.DISPLAY.wait_for_frame() return self._caption = Label(self._caption_font, text=str(caption_text)) self._caption.x = caption_position[0] self._caption.y = caption_position[1] self._caption.color = caption_color self.splash.append(self._caption) def set_text(self, val, index=0): """Display text, with indexing into our list of text boxes. :param str val: The text to be displayed :param index: Defaults to 0. """ if self._text_font: string = str(val) if self._text_maxlen[index]: string = string[:self._text_maxlen[index]] if self._text[index]: # print("Replacing text area with :", string) # self._text[index].text = string # return try: text_index = self.splash.index(self._text[index]) except AttributeError: for i in range(len(self.splash)): if self.splash[i] == self._text[index]: text_index = i break self._text[index] = Label(self._text_font, text=string) self._text[index].color = self._text_color[index] self._text[index].x = self._text_position[index][0] self._text[index].y = self._text_position[index][1] self.splash[text_index] = self._text[index] return if self._text_position[index]: # if we want it placed somewhere... print("Making text area with string:", string) self._text[index] = Label(self._text_font, text=string) self._text[index].color = self._text_color[index] self._text[index].x = self._text_position[index][0] self._text[index].y = self._text_position[index][1] self.splash.append(self._text[index]) def neo_status(self, value): """The status NeoPixel. :param value: The color to change the NeoPixel. """ if self.neopix: self.neopix.fill(value) def play_file(self, file_name, wait_to_finish=True): """Play a wav file. :param str file_name: The name of the wav file to play on the speaker. """ wavfile = open(file_name, "rb") wavedata = audioio.WaveFile(wavfile) self._speaker_enable.value = True self.audio.play(wavedata) if not wait_to_finish: return while self.audio.playing: pass wavfile.close() self._speaker_enable.value = False @staticmethod def _json_traverse(json, path): value = json for x in path: value = value[x] gc.collect() return value def get_local_time(self, location=None): # pylint: disable=line-too-long """Fetch and "set" the local time of this microcontroller to the local time at the location, using an internet time API. :param str location: Your city and country, e.g. ``"New York, US"``. """ # pylint: enable=line-too-long self._connect_esp() api_url = None try: aio_username = secrets['aio_username'] aio_key = secrets['aio_key'] except KeyError: raise KeyError("\n\nOur time service requires a login/password to rate-limit. Please register for a free adafruit.io account and place the user/key in your secrets file under 'aio_username' and 'aio_key'") # pylint: disable=line-too-long location = secrets.get('timezone', location) if location: print("Getting time for timezone", location) api_url = (TIME_SERVICE + "&tz=%s") % (aio_username, aio_key, location) else: # we'll try to figure it out from the IP address print("Getting time from IP address") api_url = TIME_SERVICE % (aio_username, aio_key) api_url += TIME_SERVICE_STRFTIME try: response = requests.get(api_url) if self._debug: print("Time request: ", api_url) print("Time reply: ", response.text) times = response.text.split(' ') the_date = times[0] the_time = times[1] year_day = int(times[2]) week_day = int(times[3]) is_dst = None # no way to know yet except KeyError: raise KeyError("Was unable to lookup the time, try setting secrets['timezone'] according to http://worldtimeapi.org/timezones") # pylint: disable=line-too-long year, month, mday = [int(x) for x in the_date.split('-')] the_time = the_time.split('.')[0] hours, minutes, seconds = [int(x) for x in the_time.split(':')] now = time.struct_time((year, month, mday, hours, minutes, seconds, week_day, year_day, is_dst)) print(now) rtc.RTC().datetime = now # now clean up response.close() response = None gc.collect() def wget(self, url, filename, *, chunk_size=12000): """Download a url and save to filename location, like the command wget. :param url: The URL from which to obtain the data. :param filename: The name of the file to save the data to. :param chunk_size: how much data to read/write at a time. """ print("Fetching stream from", url) self.neo_status((100, 100, 0)) r = requests.get(url, stream=True) if self._debug: print(r.headers) content_length = int(r.headers['content-length']) remaining = content_length print("Saving data to ", filename) stamp = time.monotonic() file = open(filename, "wb") for i in r.iter_content(min(remaining, chunk_size)): # huge chunks! self.neo_status((0, 100, 100)) remaining -= len(i) file.write(i) if self._debug: print("Read %d bytes, %d remaining" % (content_length - remaining, remaining)) else: print(".", end='') if not remaining: break self.neo_status((100, 100, 0)) file.close() r.close() stamp = time.monotonic() - stamp print("Created file of %d bytes in %0.1f seconds" % (os.stat(filename)[6], stamp)) self.neo_status((0, 0, 0)) if not content_length == os.stat(filename)[6]: raise RuntimeError def _connect_esp(self): self.neo_status((0, 0, 100)) while not self._esp.is_connected: # secrets dictionary must contain 'ssid' and 'password' at a minimum print("Connecting to AP", secrets['ssid']) if secrets['ssid'] == 'CHANGE ME' or secrets['ssid'] == 'CHANGE ME': change_me = "\n" + "*" * 45 change_me += "\nPlease update the 'secrets.py' file on your\n" change_me += "CIRCUITPY drive to include your local WiFi\n" change_me += "access point SSID name in 'ssid' and SSID\n" change_me += "password in 'password'. Then save to reload!\n" change_me += "*" * 45 raise OSError(change_me) self.neo_status((100, 0, 0)) # red = not connected try: self._esp.connect(secrets) except RuntimeError as error: print("Could not connect to internet", error) print("Retrying in 3 seconds...") time.sleep(3) @staticmethod def image_converter_url(image_url, width, height, color_depth=16): """Generate a converted image url from the url passed in, with the given width and height. aio_username and aio_key must be set in secrets.""" try: aio_username = secrets['aio_username'] aio_key = secrets['aio_key'] except KeyError: raise KeyError("\n\nOur image converter service require a login/password to rate-limit. Please register for a free adafruit.io account and place the user/key in your secrets file under 'aio_username' and 'aio_key'") # pylint: disable=line-too-long return IMAGE_CONVERTER_SERVICE % (aio_username, aio_key, width, height, color_depth, image_url) def push_to_io(self, feed_key, data): # pylint: disable=line-too-long """Push data to an adafruit.io feed :param str feed_key: Name of feed key to push data to. :param data: data to send to feed """ # pylint: enable=line-too-long try: aio_username = secrets['aio_username'] aio_key = secrets['aio_key'] except KeyError: raise KeyError( "Adafruit IO secrets are kept in secrets.py, please add them there!\n\n" ) wifi = adafruit_esp32spi_wifimanager.ESPSPI_WiFiManager( self._esp, secrets, None) io_client = IO_HTTP(aio_username, aio_key, wifi) while True: try: feed_id = io_client.get_feed(feed_key) except AdafruitIO_RequestError: # If no feed exists, create one feed_id = io_client.create_new_feed(feed_key) except RuntimeError as exception: print("An error occured, retrying! 1 -", exception) continue break while True: try: io_client.send_data(feed_id['key'], data) except RuntimeError as exception: print("An error occured, retrying! 2 -", exception) continue except NameError as exception: print(feed_id['key'], data, exception) continue break def fetch(self, refresh_url=None): """Fetch data from the url we initialized with, perfom any parsing, and display text or graphics. This function does pretty much everything Optionally update the URL """ if refresh_url: self._url = refresh_url json_out = None image_url = None values = [] gc.collect() if self._debug: print("Free mem: ", gc.mem_free()) # pylint: disable=no-member r = None if self._uselocal: print("*** USING LOCALFILE FOR DATA - NOT INTERNET!!! ***") r = Fake_Requests(LOCALFILE) if not r: self._connect_esp() # great, lets get the data print("Retrieving data...", end='') self.neo_status((100, 100, 0)) # yellow = fetching data gc.collect() r = requests.get(self._url, headers=self._headers) gc.collect() self.neo_status((0, 0, 100)) # green = got data print("Reply is OK!") if self._debug: print(r.text) if self._image_json_path or self._json_path: try: gc.collect() json_out = r.json() gc.collect() except ValueError: # failed to parse? print("Couldn't parse json: ", r.text) raise except MemoryError: supervisor.reload() if self._regexp_path: import re if self._image_url_path: image_url = self._image_url_path # optional JSON post processing, apply any transformations # these MAY change/add element for idx, json_transform in enumerate(self._json_transform): try: json_transform(json_out) except Exception as error: print("Exception from json_transform: ", idx, error) raise # extract desired text/values from json if self._json_path: for path in self._json_path: try: values.append(PyPortal._json_traverse(json_out, path)) except KeyError: print(json_out) raise elif self._regexp_path: for regexp in self._regexp_path: values.append(re.search(regexp, r.text).group(1)) else: values = r.text if self._image_json_path: try: image_url = PyPortal._json_traverse(json_out, self._image_json_path) except KeyError as error: print("Error finding image data. '" + error.args[0] + "' not found.") self.set_background(self._default_bg) # we're done with the requests object, lets delete it so we can do more! json_out = None r = None gc.collect() if image_url: try: print("original URL:", image_url) image_url = self.image_converter_url(image_url, self._image_resize[0], self._image_resize[1]) print("convert URL:", image_url) # convert image to bitmap and cache #print("**not actually wgetting**") filename = "/cache.bmp" chunk_size = 12000 # default chunk size is 12K (for QSPI) if self._sdcard: filename = "/sd" + filename chunk_size = 512 # current bug in big SD writes -> stick to 1 block try: self.wget(image_url, filename, chunk_size=chunk_size) except OSError as error: print(error) raise OSError("""\n\nNo writable filesystem found for saving datastream. Insert an SD card or set internal filesystem to be unsafe by setting 'disable_concurrent_write_protection' in the mount options in boot.py""") # pylint: disable=line-too-long except RuntimeError as error: print(error) raise RuntimeError("wget didn't write a complete file") self.set_background(filename, self._image_position) except ValueError as error: print("Error displaying cached image. " + error.args[0]) self.set_background(self._default_bg) finally: image_url = None gc.collect() # if we have a callback registered, call it now if self._success_callback: self._success_callback(values) # fill out all the text blocks if self._text: for i in range(len(self._text)): string = None if self._text_transform[i]: func = self._text_transform[i] string = func(values[i]) else: try: string = "{:,d}".format(int(values[i])) except (TypeError, ValueError): string = values[i] # ok its a string if self._debug: print("Drawing text", string) if self._text_wrap[i]: if self._debug: print("Wrapping text") lines = PyPortal.wrap_nicely(string, self._text_wrap[i]) string = '\n'.join(lines) self.set_text(string, index=i) if len(values) == 1: return values[0] return values def show_QR(self, qr_data, *, qr_size=1, x=0, y=0, hide_background=False): # pylint: disable=invalid-name """Display a QR code on the TFT :param qr_data: The data for the QR code. :param int qr_size: The scale of the QR code. :param x: The x position of upper left corner of the QR code on the display. :param y: The y position of upper left corner of the QR code on the display. :param hide_background: Show the QR code on a black background if True. """ import adafruit_miniqr # generate the QR code qrcode = adafruit_miniqr.QRCode() qrcode.add_data(qr_data) qrcode.make() # monochrome (2 color) palette palette = displayio.Palette(2) palette[0] = 0xFFFFFF palette[1] = 0x000000 # pylint: disable=invalid-name # bitmap the size of the matrix, plus border, monochrome (2 colors) qr_bitmap = displayio.Bitmap(qrcode.matrix.width + 2, qrcode.matrix.height + 2, 2) for i in range(qr_bitmap.width * qr_bitmap.height): qr_bitmap[i] = 0 # transcribe QR code into bitmap for xx in range(qrcode.matrix.width): for yy in range(qrcode.matrix.height): qr_bitmap[xx + 1, yy + 1] = 1 if qrcode.matrix[xx, yy] else 0 # display the QR code qr_sprite = displayio.TileGrid(qr_bitmap, pixel_shader=palette) if self._qr_group: try: self._qr_group.pop() except IndexError: # later test if empty pass else: self._qr_group = displayio.Group() self.splash.append(self._qr_group) self._qr_group.scale = qr_size self._qr_group.x = x self._qr_group.y = y self._qr_group.append(qr_sprite) if hide_background: board.DISPLAY.show(self._qr_group) self._qr_only = hide_background def hide_QR(self): # pylint: disable=invalid-name """Clear any QR codes that are currently on the screen """ if self._qr_only: board.DISPLAY.show(self.splash) else: try: self._qr_group.pop() except (IndexError, AttributeError): # later test if empty pass # return a list of lines with wordwrapping @staticmethod def wrap_nicely(string, max_chars): """A helper that will return a list of lines with word-break wrapping. :param str string: The text to be wrapped. :param int max_chars: The maximum number of characters on a line before wrapping. """ string = string.replace('\n', '').replace('\r', '') # strip confusing newlines words = string.split(' ') the_lines = [] the_line = "" for w in words: if len(the_line + ' ' + w) <= max_chars: the_line += ' ' + w else: the_lines.append(the_line) the_line = '' + w if the_line: # last line remaining the_lines.append(the_line) # remove first space from first line: the_lines[0] = the_lines[0][1:] return the_lines
def __init__(self, spi, display, splash_group, debug=False): # Speaker Enable self._speaker_enable = DigitalInOut(board.SPEAKER_ENABLE) self._speaker_enable.switch_to_output(False) self._display = display if hasattr(board, "AUDIO_OUT"): self.audio = audioio.AudioOut(board.AUDIO_OUT) elif hasattr(board, "SPEAKER"): self.audio = audioio.AudioOut(board.SPEAKER) else: raise AttributeError("Board does not have a builtin speaker!") if debug: print("Init SD Card") sd_cs = board.SD_CS if not NATIVE_SD: sd_cs = DigitalInOut(sd_cs) self._sdcard = None try: self._sdcard = sdcardio.SDCard(spi, sd_cs) vfs = storage.VfsFat(self._sdcard) storage.mount(vfs, "/sd") except OSError as error: print("No SD card found:", error) try: if hasattr(board, "TFT_BACKLIGHT"): self._backlight = pulseio.PWMOut(board.TFT_BACKLIGHT) # pylint: disable=no-member elif hasattr(board, "TFT_LITE"): self._backlight = pulseio.PWMOut(board.TFT_LITE) # pylint: disable=no-member except ValueError: self._backlight = None self.set_backlight(1.0) # turn on backlight # pylint: disable=import-outside-toplevel if hasattr(board, "TOUCH_XL"): import adafruit_touchscreen if debug: print("Init touchscreen") # pylint: disable=no-member self.touchscreen = adafruit_touchscreen.Touchscreen( board.TOUCH_XL, board.TOUCH_XR, board.TOUCH_YD, board.TOUCH_YU, calibration=((5200, 59000), (5800, 57000)), size=(board.DISPLAY.width, board.DISPLAY.height), ) # pylint: enable=no-member self.set_backlight(1.0) # turn on backlight elif hasattr(board, "BUTTON_CLOCK"): from adafruit_cursorcontrol.cursorcontrol import Cursor from adafruit_cursorcontrol.cursorcontrol_cursormanager import CursorManager if debug: print("Init cursor") self.mouse_cursor = Cursor(board.DISPLAY, display_group=splash_group, cursor_speed=8) self.mouse_cursor.hide() self.cursor = CursorManager(self.mouse_cursor) else: raise AttributeError( "PyPortal module requires either a touchscreen or gamepad.") # pylint: enable=import-outside-toplevel gc.collect()
class Peripherals: """Peripherals Helper Class for the PyPortal Library""" # pylint: disable=too-many-instance-attributes, too-many-locals, too-many-branches, too-many-statements def __init__(self, spi, display, splash_group, debug=False): # Speaker Enable self._speaker_enable = DigitalInOut(board.SPEAKER_ENABLE) self._speaker_enable.switch_to_output(False) self._display = display if hasattr(board, "AUDIO_OUT"): self.audio = audioio.AudioOut(board.AUDIO_OUT) elif hasattr(board, "SPEAKER"): self.audio = audioio.AudioOut(board.SPEAKER) else: raise AttributeError("Board does not have a builtin speaker!") if debug: print("Init SD Card") sd_cs = board.SD_CS if not NATIVE_SD: sd_cs = DigitalInOut(sd_cs) self._sdcard = None try: self._sdcard = sdcardio.SDCard(spi, sd_cs) vfs = storage.VfsFat(self._sdcard) storage.mount(vfs, "/sd") except OSError as error: print("No SD card found:", error) try: if hasattr(board, "TFT_BACKLIGHT"): self._backlight = pulseio.PWMOut(board.TFT_BACKLIGHT) # pylint: disable=no-member elif hasattr(board, "TFT_LITE"): self._backlight = pulseio.PWMOut(board.TFT_LITE) # pylint: disable=no-member except ValueError: self._backlight = None self.set_backlight(1.0) # turn on backlight # pylint: disable=import-outside-toplevel if hasattr(board, "TOUCH_XL"): import adafruit_touchscreen if debug: print("Init touchscreen") # pylint: disable=no-member self.touchscreen = adafruit_touchscreen.Touchscreen( board.TOUCH_XL, board.TOUCH_XR, board.TOUCH_YD, board.TOUCH_YU, calibration=((5200, 59000), (5800, 57000)), size=(board.DISPLAY.width, board.DISPLAY.height), ) # pylint: enable=no-member self.set_backlight(1.0) # turn on backlight elif hasattr(board, "BUTTON_CLOCK"): from adafruit_cursorcontrol.cursorcontrol import Cursor from adafruit_cursorcontrol.cursorcontrol_cursormanager import CursorManager if debug: print("Init cursor") self.mouse_cursor = Cursor(board.DISPLAY, display_group=splash_group, cursor_speed=8) self.mouse_cursor.hide() self.cursor = CursorManager(self.mouse_cursor) else: raise AttributeError( "PyPortal module requires either a touchscreen or gamepad.") # pylint: enable=import-outside-toplevel gc.collect() def set_backlight(self, val): """Adjust the TFT backlight. :param val: The backlight brightness. Use a value between ``0`` and ``1``, where ``0`` is off, and ``1`` is 100% brightness. """ val = max(0, min(1.0, val)) if self._backlight: self._backlight.duty_cycle = int(val * 65535) else: self._display.auto_brightness = False self._display.brightness = val def play_file(self, file_name, wait_to_finish=True): """Play a wav file. :param str file_name: The name of the wav file to play on the speaker. """ wavfile = open(file_name, "rb") wavedata = audiocore.WaveFile(wavfile) self._speaker_enable.value = True self.audio.play(wavedata) if not wait_to_finish: return while self.audio.playing: pass wavfile.close() self._speaker_enable.value = False def sd_check(self): """Returns True if there is an SD card preset and False if there is no SD card. The _sdcard value is set in _init """ if self._sdcard: return True return False @property def speaker_disable(self): """ Enable or disable the speaker for power savings """ return not self._speaker_enable.value @speaker_disable.setter def speaker_disable(self, value): self._speaker_enable.value = not value
splash.append(b.group) # Create a text label text_label = label.Label( font, text="CircuitPython Cursor!", color=0x00FF00, x=LBL_HEADER[0], y=LBL_HEADER[1] ) splash.append(text_label) text_speed = label.Label(font, color=0x00FF00, x=LBL_TEXT[0], y=LBL_TEXT[1]) splash.append(text_speed) text_scale = label.Label(font, color=0x00FF00, x=LBL_TEXT[0], y=LBL_TEXT[1] + 20) splash.append(text_scale) # initialize the mouse cursor object mouse_cursor = Cursor(display, display_group=splash) # initialize the cursormanager cursor = CursorManager(mouse_cursor) # show displayio group display.show(splash) prev_btn = None while True: cursor.update() if cursor.is_clicked is True: for i, b in enumerate(buttons): if b.contains((mouse_cursor.x, mouse_cursor.y)): b.selected = True print("Button %d pressed" % i)
def __init__(self, timezone="Pacific", hour_24_12=False, auto_dst=True, alarm=False, brightness=1.0, debug=False): #input parameters self._timezone = timezone self._hour_24_12 = hour_24_12 self._dst = False self._auto_dst = auto_dst self._alarm = alarm self._brightness = brightness self._cursor_scale = 1 # smallest cursor size self._cursor_show = True # show cursor self._weekday = ["Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"] self._month = [ "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" ] # Load the text font from the fonts folder self._font_0 = bitmap_font.load_font("/fonts/OpenSans-9.bdf") self._font_1 = bitmap_font.load_font("/fonts/Helvetica-Bold-36.bdf") # The board's integral display size WIDTH = board.DISPLAY.width # 160 for PyGamer and PyBadge HEIGHT = board.DISPLAY.height # 128 for PyGamer and PyBadge ELEMENT_SIZE = WIDTH // 4 # Size of element_grid blocks in pixels board.DISPLAY.brightness = self._brightness # Default colors BLACK = 0x000000 RED = 0xFF0000 ORANGE = 0xFF8811 YELLOW = 0xFFFF00 GREEN = 0x00FF00 CYAN = 0x00FFFF BLUE = 0x0000FF VIOLET = 0x9900FF DK_VIO = 0x110022 WHITE = 0xFFFFFF GRAY = 0x444455 ### Define the display group ### self._image_group = displayio.Group(max_size=12) ### Fill the display group # Create a background color fill layer; image_group[0] self._color_bitmap = displayio.Bitmap(WIDTH, HEIGHT, 1) self._color_palette = displayio.Palette(1) self._color_palette[0] = DK_VIO self._background = displayio.TileGrid(self._color_bitmap, pixel_shader=self._color_palette, x=0, y=0) self._image_group.append(self._background) # Define labels and values using element grid coordinates self._clock_digits = Label(self._font_1, text="06:23", color=WHITE, max_glyphs=5) self._clock_digits.x = 30 self._clock_digits.y = HEIGHT // 2 self._image_group.append(self._clock_digits) # image_group[xx] self._clock_daydate = Label(self._font_0, text="Wed 02/05/2020", color=YELLOW, max_glyphs=16) self._clock_daydate.x = 27 self._clock_daydate.y = 25 self._image_group.append(self._clock_daydate) # image_group[xx] self._clock_ampm = Label(self._font_0, text="PM", color=WHITE, max_glyphs=2) self._clock_ampm.x = 130 self._clock_ampm.y = (HEIGHT // 2) - 8 self._image_group.append(self._clock_ampm) # image_group[xx] self._clock_dst = Label(self._font_0, text="PST", color=VIOLET, max_glyphs=3) self._clock_dst.x = 130 self._clock_dst.y = (HEIGHT // 2) + 8 self._image_group.append(self._clock_dst) # image_group[xx] self._clock_auto_dst = Label(self._font_0, text="AutoDST", color=VIOLET, max_glyphs=7) self._clock_auto_dst.x = 105 self._clock_auto_dst.y = HEIGHT - 8 self._image_group.append(self._clock_auto_dst) # image_group[xx] self._clock_alarm = Label(self._font_0, text="ALARM", color=ORANGE, max_glyphs=5) self._clock_alarm.x = 5 self._clock_alarm.y = HEIGHT - 8 self._image_group.append(self._clock_alarm) # image_group[xx] self._clock_name = Label(self._font_0, text="Clock_Builder", color=BLUE, max_glyphs=14) self._clock_name.x = 40 self._clock_name.y = HEIGHT - 24 self._image_group.append(self._clock_name) # image_group[xx] # Initialize the cursor object and cursor CursorManager self._mouse_cursor = Cursor(board.DISPLAY, display_group=self._image_group) self._cursor = CursorManager(self._mouse_cursor) self._mouse_cursor.scale = self._cursor_scale if self._cursor_show and self._mouse_cursor.hidden: self._mouse_cursor.show() if not self._cursor_show and not self._mouse_cursor.hidden: self._mouse_cursor.hide() self._cursor.update() # refresh the cursor # debug parameters self._debug = debug if self._debug: print("*Init:", self.__class__) print("*Init: ", self.__dict__)
class DisplayioDisplay: def __init__(self, timezone="Pacific", hour_24_12=False, auto_dst=True, alarm=False, brightness=1.0, debug=False): #input parameters self._timezone = timezone self._hour_24_12 = hour_24_12 self._dst = False self._auto_dst = auto_dst self._alarm = alarm self._brightness = brightness self._cursor_scale = 1 # smallest cursor size self._cursor_show = True # show cursor self._weekday = ["Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"] self._month = [ "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" ] # Load the text font from the fonts folder self._font_0 = bitmap_font.load_font("/fonts/OpenSans-9.bdf") self._font_1 = bitmap_font.load_font("/fonts/Helvetica-Bold-36.bdf") # The board's integral display size WIDTH = board.DISPLAY.width # 160 for PyGamer and PyBadge HEIGHT = board.DISPLAY.height # 128 for PyGamer and PyBadge ELEMENT_SIZE = WIDTH // 4 # Size of element_grid blocks in pixels board.DISPLAY.brightness = self._brightness # Default colors BLACK = 0x000000 RED = 0xFF0000 ORANGE = 0xFF8811 YELLOW = 0xFFFF00 GREEN = 0x00FF00 CYAN = 0x00FFFF BLUE = 0x0000FF VIOLET = 0x9900FF DK_VIO = 0x110022 WHITE = 0xFFFFFF GRAY = 0x444455 ### Define the display group ### self._image_group = displayio.Group(max_size=12) ### Fill the display group # Create a background color fill layer; image_group[0] self._color_bitmap = displayio.Bitmap(WIDTH, HEIGHT, 1) self._color_palette = displayio.Palette(1) self._color_palette[0] = DK_VIO self._background = displayio.TileGrid(self._color_bitmap, pixel_shader=self._color_palette, x=0, y=0) self._image_group.append(self._background) # Define labels and values using element grid coordinates self._clock_digits = Label(self._font_1, text="06:23", color=WHITE, max_glyphs=5) self._clock_digits.x = 30 self._clock_digits.y = HEIGHT // 2 self._image_group.append(self._clock_digits) # image_group[xx] self._clock_daydate = Label(self._font_0, text="Wed 02/05/2020", color=YELLOW, max_glyphs=16) self._clock_daydate.x = 27 self._clock_daydate.y = 25 self._image_group.append(self._clock_daydate) # image_group[xx] self._clock_ampm = Label(self._font_0, text="PM", color=WHITE, max_glyphs=2) self._clock_ampm.x = 130 self._clock_ampm.y = (HEIGHT // 2) - 8 self._image_group.append(self._clock_ampm) # image_group[xx] self._clock_dst = Label(self._font_0, text="PST", color=VIOLET, max_glyphs=3) self._clock_dst.x = 130 self._clock_dst.y = (HEIGHT // 2) + 8 self._image_group.append(self._clock_dst) # image_group[xx] self._clock_auto_dst = Label(self._font_0, text="AutoDST", color=VIOLET, max_glyphs=7) self._clock_auto_dst.x = 105 self._clock_auto_dst.y = HEIGHT - 8 self._image_group.append(self._clock_auto_dst) # image_group[xx] self._clock_alarm = Label(self._font_0, text="ALARM", color=ORANGE, max_glyphs=5) self._clock_alarm.x = 5 self._clock_alarm.y = HEIGHT - 8 self._image_group.append(self._clock_alarm) # image_group[xx] self._clock_name = Label(self._font_0, text="Clock_Builder", color=BLUE, max_glyphs=14) self._clock_name.x = 40 self._clock_name.y = HEIGHT - 24 self._image_group.append(self._clock_name) # image_group[xx] # Initialize the cursor object and cursor CursorManager self._mouse_cursor = Cursor(board.DISPLAY, display_group=self._image_group) self._cursor = CursorManager(self._mouse_cursor) self._mouse_cursor.scale = self._cursor_scale if self._cursor_show and self._mouse_cursor.hidden: self._mouse_cursor.show() if not self._cursor_show and not self._mouse_cursor.hidden: self._mouse_cursor.hide() self._cursor.update() # refresh the cursor # debug parameters self._debug = debug if self._debug: print("*Init:", self.__class__) print("*Init: ", self.__dict__) @property def zone(self): """The clock's time zone. Default is Pacific.""" return self._timezone @zone.setter def zone(self, timezone): self._timezone = timezone @property def hour_24(self): """Display 24-hour or 12-hour AM/PM. Default is 12-hour (False).""" return self._hour_24_12 @hour_24.setter def hour_24(self, hour_24_12): self._hour_24_12 = hour_24_12 @property def dst(self): """Time is US DST. Default is Standard Time (False).""" return self._dst @dst.setter def dst(self, dst): self._dst = dst @property def auto_dst(self): """Automatically display US DST. Default is auto DST (True).""" return self._auto_dst @auto_dst.setter def auto_dst(self, auto_dst): self._auto_dst = auto_dst @property def alarm(self): """Alarm is activated. Default is no alarm (False).""" return self._alarm @alarm.setter def alarm(self, alarm=False): self._dst = alarm @property def brightness(self): """Display brightness (0 - 1.0). Default full brightness (1.0).""" return self._brightness @brightness.setter def brightness(self, brightness): self._brightness = brightness board.DISPLAY.brightness = self._brightness @property def cursor(self): """Cursor refresh and visibility. Default is visible (True).""" return self._cursor_show @cursor.setter def cursor(self, show=True): """Cursor refresh and visibility. Default is visible (True).""" self._cursor_show = show self._mouse_cursor.scale = self._cursor_scale if self._cursor_show and self._mouse_cursor.hidden: self._mouse_cursor.show() if not self._cursor_show and not self._mouse_cursor.hidden: self._mouse_cursor.hide() self._cursor.update() # refresh the cursor @property def show(self): """Display time via Displayio""" return @show.setter def show(self, datetime): """Display time via REPL.""" self._datetime = datetime if self._auto_dst and self._dst: # changes the text to show DST self._clock_dst.text = self._timezone[0] + "DT" else: # or Standard Time self._clock_dst.text = self._timezone[0] + "ST" if self._auto_dst: self._clock_auto_dst.text = "AutoDST" else: self._clock_auto_dst.text = " " self._hour = self._datetime.tm_hour # Format for 24-hour or 12-hour output if self._hour_24_12: # 24-hour self._clock_ampm.text = " " else: # 12-hour clock with AM/PM self._clock_ampm.text = "AM" if self._hour >= 12: self._hour = self._hour - 12 self._clock_ampm.text = "PM" if self._hour == 0: # midnight hour fix self._hour = 12 if self._alarm: self._clock_alarm.text = "ALARM" else: self._clock_alarm.text = " " self._clock_name.text = "" # add this feature later self._clock_daydate.text = "{} {} {:02d}, {:04d}".format( self._weekday[self._datetime.tm_wday], self._month[self._datetime.tm_mon - 1], self._datetime.tm_mday, self._datetime.tm_year) self._clock_digits.text = "{:02}:{:02}".format(self._hour, self._datetime.tm_min) # Update display self._cursor.update() # refresh the cursor board.DISPLAY.show(self._image_group) time.sleep(0.1) # Allow display to load return