Add led patterns

This commit is contained in:
jimmy 2024-01-31 07:41:04 +00:00
parent 1f39ed4f08
commit 406f483ef0
1 changed files with 129 additions and 0 deletions

129
patterns.py Normal file
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from ws2812 import WS2812B
import uasyncio as asyncio
import time, math
class LedPatterns(WS2812B):
async def color_chase(self, color, wait):
for i in range(self.num_leds):
self.set(i, color)
await asyncio.sleep(wait)
self.show()
time.sleep(0.2)
def wheel(self, pos):
# Input a value 0 to 255 to get a color value.
# The colours are a transition r - g - b - back to r.
if pos < 0 or pos > 255:
return (0, 0, 0)
if pos < 85:
return (255 - pos * 3, pos * 3, 0)
if pos < 170:
pos -= 85
return (0, 255 - pos * 3, pos * 3)
pos -= 170
return (pos * 3, 0, 255 - pos * 3)
async def rainbow_cycle(self, wait):
for j in range(255):
for i in range(self.num_leds):
rc_index = (i * 256 // self.num_leds) + j
self.set(i, self.wheel(rc_index & 255))
self.show()
await asyncio.sleep(wait)
async def breathing(self, color, duration):
steps = 256 # Number of steps for the breathing effect
for _ in range(steps):
brightness = int(255 * abs(steps / 2 - _) / (steps / 2)) # Calculate brightness
self.fill((brightness * color[0] // 255, brightness * color[1] // 255, brightness * color[2] // 255))
self.show()
await asyncio.sleep(duration / steps)
async def color_transition(self, start_color, end_color, duration):
steps = 256 # Number of steps for the color transition
for step in range(steps):
# Interpolate between start_color and end_color
color = (
int(start_color[0] + (end_color[0] - start_color[0]) * step / steps),
int(start_color[1] + (end_color[1] - start_color[1]) * step / steps),
int(start_color[2] + (end_color[2] - start_color[2]) * step / steps),
)
self.fill(color)
self.show()
await asyncio.sleep(duration / steps)
async def scanner(self, color, speed):
position = 0
direction = 1 # 1 for moving right, -1 for moving left
while True:
self.fill((0, 0, 0)) # Clear the LEDs
self.set(position, color) # Set the current position to the specified color
while self.busy():
pass
self.show()
await asyncio.sleep(speed)
position += direction
if position == self.num_leds - 1 or position == 0:
direction *= -1 # Reverse direction when reaching the end
async def bidirectional_scanner(self, color_left, color_right=None, speed=0.1):
# If right color is not specified, use the left color
color_right = color_right or color_left
position_left = 0
position_right = self.num_leds - 1
direction_left = 1 # 1 for moving right, -1 for moving left
direction_right = -1 # 1 for moving right, -1 for moving left
while True:
self.fill((0, 0, 0)) # Clear the LEDs
self.set(position_left, color_left) # Set the left position to the specified color
self.set(position_right, color_right) # Set the right position to the specified color
self.show()
await asyncio.sleep(speed)
position_left += direction_left
position_right += direction_right
# Reverse direction when reaching the end
if position_left == self.num_leds - 1 or position_left == 0:
direction_left *= -1
if position_right == self.num_leds - 1 or position_right == 0:
direction_right *= -1
async def sine_wave_propagation(self, color, speed):
frequency = 10 # Adjust the frequency of the sine wave
phase = 0 # Initial phase of the sine wave
while True:
self.fill((0, 0, 0)) # Clear the LEDs
for i in range(self.num_leds):
brightness = int(127.5 * (math.sin(frequency * i + phase) + 1))
self.set(i, (brightness * color[0] // 255, brightness * color[1] // 255, brightness * color[2] // 255))
while self.busy():
pass
self.show()
await asyncio.sleep(speed)
# Update phase for the sine wave propagation
phase += 0.1
async def run():
ws = LedPatterns(150, 0, 0, 0.1)
while True:
#await ws.color_transition(ws.RED, ws.BLUE, 2)
#await ws.color_transition(ws.BLUE, ws.GREEN, 2)
#await ws.color_transition(ws.GREEN, ws.RED, 2)
#await ws.bidirectional_scanner(ws.GREEN)
await ws.sine_wave_propagation(ws.RED, 0.1)
if __name__ == "__main__":
loop = asyncio.get_event_loop()
asyncio.create_task(run())
loop.run_forever()