Skip to content

Instantly share code, notes, and snippets.

@rossgoodwin

rossgoodwin/razer_rgb.py

Last active September 12, 2017 00:03
Show Gist options
  • Save rossgoodwin/24bdfced725ae451e7d8f343c79cccf5 to your computer and use it in GitHub Desktop.
Save rossgoodwin/24bdfced725ae451e7d8f343c79cccf5 to your computer and use it in GitHub Desktop.
Download ZIP
Raw
razer_rgb.py
#!/usr/bin/env python
import os
import math
from numpy import interp
from random import choice, sample
from time import sleep
from math import log1p
# from colour import Color
ROOT = "/sys/bus/hid/drivers/hid-razer/0003:1532:020F.0003"
ROW_COUNT = 6
COL_COUNT = 16
def clamp(x):
return max(0, min(x, 255))
def write_to_file(filename, value):
with open(os.path.join(ROOT, filename), 'w') as outfile:
outfile.write(value)
def set_keyboard_rgb(rgb_list):
"""
Set all keys rgb values. Takes list of tups.
"""
hex_str = ''.join(
map(
lambda tup: ''.join(map(chr, tup)),
rgb_list
)
)
write_to_file('set_key_colors', hex_str)
def solid_color(*rgb):
rgb_list = [rgb]*ROW_COUNT*COL_COUNT
set_keyboard_rgb(rgb_list)
def two_color_noise(rgb1,rgb2,variety=64,burst=True,secs=10,per_sec=10):
def set_colors():
rgb_list = sample([rgb1, rgb2]*ROW_COUNT*COL_COUNT*16, ROW_COUNT*COL_COUNT)
for i in range(ROW_COUNT*COL_COUNT):
r,g,b = rgb_list[i]
r += choice(range(-variety/2, variety/2))
g += choice(range(-variety/2, variety/2))
b += choice(range(-variety/2, variety/2))
rgb_list[i] = tuple(map(clamp, [r,g,b]))
set_keyboard_rgb(rgb_list)
if burst:
for _ in range(secs*per_sec):
set_colors()
sleep(1.0/per_sec)
else:
set_colors()
def monochrome_noise(red,green,blue,variety=64,burst=True,secs=10,per_sec=10):
def set_colors():
rgb_list = [(red,green,blue)]*ROW_COUNT*COL_COUNT
for i in range(ROW_COUNT*COL_COUNT):
r,g,b = rgb_list[i]
r += choice(range(-variety/2, variety/2))
g += choice(range(-variety/2, variety/2))
b += choice(range(-variety/2, variety/2))
rgb_list[i] = tuple(map(clamp, [r,g,b]))
# print rgb_list
set_keyboard_rgb(rgb_list)
if burst:
for _ in range(secs*per_sec):
set_colors()
sleep(1.0/per_sec)
else:
set_colors()
def random_burst(secs=10, per_sec=10, bright=False, sparseness=0):
for interval in range(secs*per_sec):
if bright:
rng = [0,255]
else:
rng = range(256)
rgb_list = [
choice([tuple([choice(rng) for x in range(3)])]+[(0,0,0)]*sparseness) for y in range(ROW_COUNT*COL_COUNT)
]
# print rgb_list
set_keyboard_rgb(rgb_list)
sleep(1.0/per_sec)
def r_wipe(count=5, r_color=(255,0,0), bg_color=(0,255,0), twinkle=True, line=False):
def make_random_color(dominant_ix, variety):
init_rgb = sample(range(variety)*3, 3)
init_rgb[dominant_ix] = choice(range(256-variety,256))
return tuple(init_rgb)
if line:
starting_pt = 0
line_variance = 64
else:
starting_pt = -3
line_variance = 1
for interval in range(count):
for i in range(starting_pt, COL_COUNT):
if twinkle:
dominant_bg_ix = bg_color.index(max(bg_color))
rgb_list = [
make_random_color(dominant_bg_ix, 100) for y in range(ROW_COUNT*COL_COUNT)
]
else:
rgb_list = [bg_color]*ROW_COUNT*COL_COUNT
# if i >= 0:
rl = [i+x for x in range(0,ROW_COUNT*COL_COUNT,16)]
if not line:
if -3 <= i <= -1:
to_add = [ rl[0]+3, rl[1]+3, rl[4]+3, rl[5]+3 ]
elif -2 <= i <= -1:
to_add = [ rl[0]+2, rl[0]+3, rl[1]+3, rl[2]+2, rl[3]+2, rl[4]+2, rl[4]+3, rl[5]+3 ]
elif -1 <= i <= 12:
to_add = [ rl[0]+1, rl[0]+2, rl[0]+3, rl[1]+3, rl[2]+1, rl[2]+2, rl[3]+2, rl[4]+2, rl[4]+3, rl[5]+3 ]
elif -1 <= i <= 13:
to_add = [ rl[0]+1, rl[0]+2, rl[2]+1, rl[2]+2, rl[3]+2, rl[4]+2 ]
elif -1 <= i <= 14:
to_add = [ rl[0]+1, rl[2]+1 ]
if rl < 0:
rl = to_add
else:
rl.extend(to_add)
dominant_r_ix = r_color.index(max(r_color))
for ix in rl:
rgb_list[ix] = make_random_color(dominant_r_ix, line_variance)
set_keyboard_rgb(rgb_list)
sleep( log1p( 0.3 / ( abs(6-i)+1 ) ) )
# if interval == count-1 and i == 6:
# break
if __name__ == '__main__':
solid_color(0,0,0)
write_to_file('brightness', '255')
random_burst(secs=1, sparseness=15)
random_burst(secs=1, sparseness=9)
random_burst(secs=1, sparseness=5)
random_burst(secs=1, sparseness=2)
random_burst(secs=1, sparseness=1)
random_burst(secs=1)
# random_burst(secs=2, bright=True)
# random_burst(secs=2)
r_wipe(count=3)
monochrome_noise(38,207,64, secs=3, variety=128)
write_to_file('brightness', '128')
sleep(0.2)
write_to_file('brightness', '64')
sleep(0.2)
write_to_file('brightness', '32')
Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment