-import random, itertools
+import random
+import itertools
from functools import wraps
from termcolor import *
from pyfiglet import figlet_format
+from functools import reduce
-grey = lambda x: colored(x, 'grey', attrs=['bold'])
-red = lambda x: colored(x, 'red', attrs=['bold'])
-green = lambda x: colored(x, 'green', attrs=['bold'])
-yellow = lambda x: colored(x, 'yellow', attrs=['bold'])
-blue = lambda x: colored(x, 'blue', attrs=['bold'])
+grey = lambda x: colored(x, 'grey', attrs=['bold'])
+red = lambda x: colored(x, 'red', attrs=['bold'])
+green = lambda x: colored(x, 'green', attrs=['bold'])
+yellow = lambda x: colored(x, 'yellow', attrs=['bold'])
+blue = lambda x: colored(x, 'blue', attrs=['bold'])
magenta = lambda x: colored(x, 'magenta', attrs=['bold'])
-cyan = lambda x: colored(x, 'cyan', attrs=['bold'])
-white = lambda x: colored(x, 'white', attrs=['bold'])
+cyan = lambda x: colored(x, 'cyan', attrs=['bold'])
+white = lambda x: colored(x, 'white', attrs=['bold'])
-on_grey = lambda x: colored(x, 'white', 'on_grey', attrs=['bold'])
-on_red = lambda x: colored(x, 'white', 'on_red', attrs=['bold'])
-on_green = lambda x: colored(x, 'white', 'on_green', attrs=['bold'])
-on_yellow = lambda x: colored(x, 'white', 'on_yellow', attrs=['bold'])
-on_blue = lambda x: colored(x, 'white', 'on_blue', attrs=['bold'])
+on_grey = lambda x: colored(x, 'white', 'on_grey', attrs=['bold'])
+on_red = lambda x: colored(x, 'white', 'on_red', attrs=['bold'])
+on_green = lambda x: colored(x, 'white', 'on_green', attrs=['bold'])
+on_yellow = lambda x: colored(x, 'white', 'on_yellow', attrs=['bold'])
+on_blue = lambda x: colored(x, 'white', 'on_blue', attrs=['bold'])
on_magenta = lambda x: colored(x, 'white', 'on_magenta', attrs=['bold'])
-on_cyan = lambda x: colored(x, 'white', 'on_cyan', attrs=['bold'])
-on_white = lambda x: colored(x, 'white', 'on_white', attrs=['bold'])
+on_cyan = lambda x: colored(x, 'white', 'on_cyan', attrs=['bold'])
+on_white = lambda x: colored(x, 'white', 'on_white', attrs=['bold'])
colors_shuffle = [grey, red, green, yellow, blue, magenta, cyan]
-background_shuffle = [on_grey, on_red, on_green, on_yellow, on_blue, on_magenta, on_cyan]
+background_shuffle = [
+ on_grey,
+ on_red,
+ on_green,
+ on_yellow,
+ on_blue,
+ on_magenta,
+ on_cyan]
cyc = itertools.cycle(colors_shuffle[1:])
"""
Print a string with ordered color with each character
"""
- c = [colors_shuffle[i%7](s[i]) for i in xrange(len(s))]
- return reduce(lambda x,y: x+y, c)
+ c = [colors_shuffle[i % 7](s[i]) for i in xrange(len(s))]
+ return reduce(lambda x, y: x + y, c)
+
def random_rainbow(s):
"""
Print a string with random color with each character
"""
c = [random.choice(colors_shuffle)(i) for i in s]
- return reduce(lambda x,y: x+y, c)
+ return reduce(lambda x, y: x + y, c)
+
def Memoize(func):
"""
Memoize decorator
"""
cache = {}
+
@wraps(func)
def wrapper(*args):
if args not in cache:
return cache[args]
return wrapper
+
@Memoize
def cycle_color(s):
"""
"""
return next(cyc)(s)
+
def ascii_art():
"""
Draw the Ascii Art
"""
fi = figlet_format('Rainbow Stream', font='doom')
print('\n'.join(
- [next(cyc)(i) for i in fi.split('\n')]
- )
+ [next(cyc)(i) for i in fi.split('\n')]
+ )
)
-