# Generating N random numbers that probability distribution
# fits to any given function curve
# FB - 201006137
import math
import random
# define any function here!
def f(x):
return math.sin(x)
# f(x) = 1.0 : for uniform probability distribution
# f(x) = x : for triangular probability distribution
# f(x) = math.exp(-x*x/2.0)/math.sqrt(2.0*math.pi) : for std normal p.d.
# define any xmin-xmax interval here! (xmin < xmax)
xmin = 0.0
xmax = math.pi
# find ymin-ymax
numSteps = 1000000 # bigger the better but slower!
ymin = f(xmin)
ymax = ymin
for i in range(numSteps):
x = xmin + (xmax - xmin) * float(i) / numSteps
y = f(x)
if y < ymin: ymin = y
if y > ymax: ymax = y
n = 10 # how many random numbers to generate
for i in range(n):
while True:
# generate a random number between 0 to 1
xr = random.random()
yr = random.random()
x = xmin + (xmax - xmin) * xr
y = ymin + (ymax - ymin) * yr
if y <= f(x):
print xr
break
