使用到的库:
- adafruit_apds9960
- adafruit_bus_device
- adafruit_bmp280
- adafruit_clue.py
- adafruit_dotstar.mpy
- adafruit_fancyled
- adafruit_imageload
- adafruit_lis3mdl.mpy
- adafruit_lsm6ds.mpy
- adafruit_register
- adafruit_sht31d.mpy
- adafruit_slideshow.mpy
- neopixel.mpy
代码: 全选
# Bright Wearables Purse Slideshow with FancyLED
# Anne Barela for Adafruit Industries, February 2020
# MIT License
import board
import adafruit_dotstar as dotstar
from adafruit_clue import clue
from adafruit_slideshow import SlideShow, PlayBackDirection
import adafruit_fancyled.adafruit_fancyled as fancy
# Set the LED ring speed and brightness
LED_SPEED = 0.2 # pick a number from 0 (no motion) to 1.0 (fastest!)
BRIGHTNESS = 0.2 # pick a number from 0 (dark) to 1.0 (bright!)
# colors available are RED, YELLOW, ORANGE, GREEN, TEAL
# CYAN, BLUE, PURPLE, MAGENTA, WHITE, BLACK, GOLD, PINK
# AQUA, JADE, AMBER, VIOLET, SKY - pick any color set!
# 3 to 5 colors looks best...
palette = [clue.PINK, clue.GOLD, clue.JADE]
# For the Bright Wearables DotStar LED Ring
num_leds = 12
pixels = dotstar.DotStar(board.P13, board.P15, num_leds, auto_write=False)
offset = 0
# Create the BMP displayer
slideshow = SlideShow(clue.display, None, folder="/",
auto_advance=False)
# turn palette to fancytype
for i, color in enumerate(palette):
palette[i] = fancy.CRGB(*[x / 255 for x in color])
while True:
if clue.button_b:
slideshow.direction = PlayBackDirection.FORWARD
slideshow.advance()
if clue.button_a:
slideshow.direction = PlayBackDirection.BACKWARD
slideshow.advance()
# spin the LEDs
for i in range(num_leds):
# Load each pixel's color from the palette using an offset, run it
# through the gamma function, pack RGB value and assign to pixel.
color = fancy.palette_lookup(palette, offset + i / num_leds)
color = fancy.gamma_adjust(color, brightness=BRIGHTNESS)
pixels[i] = color.pack()
pixels.show()
offset += LED_SPEED / 10[/i][/i]