def Screen(backlight_control=True, baudrate=100000000, spi=None): """__init__ :param bool backlight_control: determines whether this class should handle the screen's backlight (default True) (this is useful to set to False if you want to control the brightness with pwm in your own code) :param int baudrate: sets the baudrate for the spi connection to the display (default 100000000) (baudrate doesn't need to be this high for the display to function, it's just nice to have a quick screen refresh by default) This class is used to setup the envirowing screen with displayio and return a display object """ import board import pimoroni_physical_feather_pins import displayio from adafruit_st7735r import ST7735R # if not supplied an spi object, make our own if not spi: spi = board.SPI() # define which spi bus the screen is on spi.try_lock() # try to get control of the spi bus spi.configure( baudrate=baudrate) # tell the spi bus how fast it's going to run spi.unlock() # unlocks the spi bus so displayio can control it displayio.release_displays( ) # release any displays that may exist from previous code run if backlight_control: display_bus = displayio.FourWire( spi, command=pimoroni_physical_feather_pins.pin19(), chip_select=pimoroni_physical_feather_pins.pin20(), reset=pimoroni_physical_feather_pins.pin21( )) # define the display bus else: display_bus = displayio.FourWire( spi, command=pimoroni_physical_feather_pins.pin19(), chip_select=pimoroni_physical_feather_pins.pin20( )) # define the display bus display = ST7735R( display_bus, width=160, height=80, colstart=26, rowstart=1, rotation=270, invert=True ) # define the display (these values are specific to the envirowing's screen) return display
def Screen(tests, num_test_bytes, write_tests_to_nvm, reset): try: import board, pimoroni_physical_feather_pins, displayio from adafruit_st7735r import ST7735R #region Screen setup """ This region of code is used to setup the envirowing screen with displayio """ spi = board.SPI() # define which spi bus the screen is on spi.try_lock() # try to get control of the spi bus spi.configure( baudrate=100000000) # tell the spi bus how fast it's going to run # baudrate doesn't need to be this high in practice, it's just nice to have a quick screen refresh in this case spi.unlock() # unlocks the spi bus so displayio can control it tft_dc = pimoroni_physical_feather_pins.pin19( ) # define which pin the command line is on tft_cs = pimoroni_physical_feather_pins.pin20( ) # define which pin the chip select line is on displayio.release_displays( ) # release any displays that may exist from previous code run display_bus = displayio.FourWire(spi, command=tft_dc, chip_select=tft_cs, reset=pimoroni_physical_feather_pins. pin21()) # define the display bus display = ST7735R( display_bus, width=160, height=80, colstart=26, rowstart=1, rotation=270, invert=True ) # define the display (these values are specific to the envirowing's screen) #endregion Screen setup if display: tests["Screen"]["Passed"] = True print("Passed with", display) else: tests["Screen"]["Passed"] = False print("Failed") except Exception as e: tests["Screen"]["Passed"] = False print("Failed with ", e) finally: tests["Screen"]["Test Run"] = True write_tests_to_nvm(tests, num_test_bytes) reset()
def display_results(tests): import board, pimoroni_physical_feather_pins, displayio from adafruit_st7735r import ST7735R #region Screen setup """ This region of code is used to setup the envirowing screen with displayio """ spi = board.SPI() # define which spi bus the screen is on spi.try_lock() # try to get control of the spi bus spi.configure(baudrate=100000000) # tell the spi bus how fast it's going to run # baudrate doesn't need to be this high in practice, it's just nice to have a quick screen refresh in this case spi.unlock() # unlocks the spi bus so displayio can control it tft_dc = pimoroni_physical_feather_pins.pin19() # define which pin the command line is on tft_cs = pimoroni_physical_feather_pins.pin20() # define which pin the chip select line is on displayio.release_displays() # release any displays that may exist from previous code run display_bus = displayio.FourWire(spi, command=tft_dc, chip_select=tft_cs, reset=pimoroni_physical_feather_pins.pin21()) # define the display bus display = ST7735R(display_bus, width=160, height=80, colstart=26, rowstart=1, rotation=270, invert=True) # define the display (these values are specific to the envirowing's screen) #endregion Screen setup failed = [] for test in tests.keys(): if test not in ("Finished", "Read"): if not tests[test]["Passed"]: failed.append(test) if not failed: print("All Tests Passed!") else: print("These tests failed:") print(", ".join(failed)) tests["Read"] = True write_tests_to_nvm(tests, num_test_bytes) while True: pass
softassert = softassert() #region Screen setup """ This region of code is used to setup the envirowing screen with displayio """ spi = board.SPI() # define which spi bus the screen is on spi.try_lock() # try to get control of the spi bus spi.configure( baudrate=100000000) # tell the spi bus how fast it's going to run # baudrate doesn't need to be this high in practice, it's just nice to have a quick screen refresh in this case spi.unlock() # unlocks the spi bus so displayio can control it tft_dc = pimoroni_physical_feather_pins.pin19( ) # define which pin the command line is on tft_cs = pimoroni_physical_feather_pins.pin20( ) # define which pin the chip select line is on displayio.release_displays( ) # release any displays that may exist from previous code run display_bus = displayio.FourWire( spi, command=tft_dc, chip_select=tft_cs, reset=pimoroni_physical_feather_pins.pin21()) # define the display bus display = ST7735R( display_bus, width=160, height=80,