audio-reactive-led-strip/python/led.py

from __future__ import print_function
import time
import socket
import numpy as np

# Nonlinear brightness correction
lookup_table = np.load('lookup_table.npy')
N_pixels = 240
m = None

# Socket communication settings
UDP_IP = "192.168.0.100"
UDP_PORT = 7777
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)


def set_all(R, G, B):
    for i in range(N_pixels):
        set_pixel(i, R, G, B)
    update_pixels()


def set_from_array(x):
    dt = 2.0 * np.pi / N_pixels
    t = time.time() * 1.5
    def r(t): return (np.sin(t + 0.0) + 1.0) * 1.0 / 2.0
    def g(t): return (np.sin(t + (2.0 / 3.0) * np.pi) + 1.0) * 1.0 / 2.0
    def b(t): return (np.sin(t + (4.0 / 3.0) * np.pi) + 1.0) * 1.0 / 2.0
    for n in range(N_pixels):
        set_pixel(N=n,
                  R=r(n * dt + t) * x[n],
                  G=g(n * dt + t) * x[n],
                  B=b(n * dt + t) * x[n],
                  nonlinear_correction=True)
    update_pixels()


def set_pixel(N, R, G, B, nonlinear_correction=True):
    global m
    r = int(min(max(R, 0), 255))
    g = int(min(max(G, 0), 255))
    b = int(min(max(B, 0), 255))
    if nonlinear_correction:
        r = lookup_table[r]
        g = lookup_table[g]
        b = lookup_table[b]
    if m is None:
        m = chr(N) + chr(r) + chr(g) + chr(b)
    else:
        m += chr(N) + chr(r) + chr(g) + chr(b)


def update_pixels():
    global m
    sock.sendto(m, (UDP_IP, UDP_PORT))
    m = None


def rainbow(brightness=255.0, speed=1.0, fps=10):
    offset = 132
    dt = 2.0 * np.pi / N_pixels
    def r(t): return (np.sin(t + 0.0) + 1.0) * brightness / 2.0 + offset
    def g(t): return (np.sin(t + (2.0 / 3.0) * np.pi) + 1.0) * brightness / 2.0 + offset
    def b(t): return (np.sin(t + (4.0 / 3.0) * np.pi) + 1.0) * brightness / 2.0 + offset
    while True:
        t = time.time() * speed
        for n in range(N_pixels):
            T = t + n * dt
            set_pixel(N=n, R=r(T), G=g(T), B=b(T))
        update_pixels()
        time.sleep(1.0 / fps)


if __name__ == '__main__':
    for i in range(N_pixels):
        set_all(0, 0, 0)
    # rainbow(speed=0.025, fps=40, brightness=0)
Initial commit Initial commit of working python and ESP8266 code. 2016-10-12 23:50:00 +02:00			`from __future__ import print_function`
			`import time`
			`import socket`
			`import numpy as np`

			`# Nonlinear brightness correction`
			`lookup_table = np.load('lookup_table.npy')`
			`N_pixels = 240`
			`m = None`

			`# Socket communication settings`
			`UDP_IP = "192.168.0.100"`
			`UDP_PORT = 7777`
			`sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)`


			`def set_all(R, G, B):`
			`for i in range(N_pixels):`
			`set_pixel(i, R, G, B)`
			`update_pixels()`


			`def set_from_array(x):`
			`dt = 2.0 * np.pi / N_pixels`
			`t = time.time() * 1.5`
			`def r(t): return (np.sin(t + 0.0) + 1.0) * 1.0 / 2.0`
			`def g(t): return (np.sin(t + (2.0 / 3.0) * np.pi) + 1.0) * 1.0 / 2.0`
			`def b(t): return (np.sin(t + (4.0 / 3.0) * np.pi) + 1.0) * 1.0 / 2.0`
			`for n in range(N_pixels):`
			`set_pixel(N=n,`
			`R=r(n * dt + t) * x[n],`
			`G=g(n * dt + t) * x[n],`
			`B=b(n * dt + t) * x[n],`
			`nonlinear_correction=True)`
			`update_pixels()`


			`def set_pixel(N, R, G, B, nonlinear_correction=True):`
			`global m`
			`r = int(min(max(R, 0), 255))`
			`g = int(min(max(G, 0), 255))`
			`b = int(min(max(B, 0), 255))`
			`if nonlinear_correction:`
			`r = lookup_table[r]`
			`g = lookup_table[g]`
			`b = lookup_table[b]`
			`if m is None:`
			`m = chr(N) + chr(r) + chr(g) + chr(b)`
			`else:`
			`m += chr(N) + chr(r) + chr(g) + chr(b)`


			`def update_pixels():`
			`global m`
			`sock.sendto(m, (UDP_IP, UDP_PORT))`
			`m = None`


			`def rainbow(brightness=255.0, speed=1.0, fps=10):`
			`offset = 132`
			`dt = 2.0 * np.pi / N_pixels`
			`def r(t): return (np.sin(t + 0.0) + 1.0) * brightness / 2.0 + offset`
			`def g(t): return (np.sin(t + (2.0 / 3.0) * np.pi) + 1.0) * brightness / 2.0 + offset`
			`def b(t): return (np.sin(t + (4.0 / 3.0) * np.pi) + 1.0) * brightness / 2.0 + offset`
			`while True:`
Added missing lookup table, fixed pep8 formatting Added lookup_table.npy which was missing from the previous commit. The led.py module uses this table to do LED brightness gamma correction. Fixed formatting for pep8 compliance 2016-10-13 01:02:06 +02:00			`t = time.time() * speed`
Initial commit Initial commit of working python and ESP8266 code. 2016-10-12 23:50:00 +02:00			`for n in range(N_pixels):`
			`T = t + n * dt`
			`set_pixel(N=n, R=r(T), G=g(T), B=b(T))`
			`update_pixels()`
			`time.sleep(1.0 / fps)`

Added missing lookup table, fixed pep8 formatting Added lookup_table.npy which was missing from the previous commit. The led.py module uses this table to do LED brightness gamma correction. Fixed formatting for pep8 compliance 2016-10-13 01:02:06 +02:00
Initial commit Initial commit of working python and ESP8266 code. 2016-10-12 23:50:00 +02:00			`if __name__ == '__main__':`
			`for i in range(N_pixels):`
			`set_all(0, 0, 0)`
Added missing lookup table, fixed pep8 formatting Added lookup_table.npy which was missing from the previous commit. The led.py module uses this table to do LED brightness gamma correction. Fixed formatting for pep8 compliance 2016-10-13 01:02:06 +02:00			`# rainbow(speed=0.025, fps=40, brightness=0)`