# Python: Non-linear blending of two arrays

I have a simple linear blender, which takes two arrays and blends them together given an upper and lower bound. I want to make this handle non-linear functions such as this sigma function.

The original is a linear blend, where a and b are blended along the (a * ds2)+(b * ds1) straight line.

I am interested in attempting some non-linear blending methods, but am unsure how to implement the same true blending with a sigma/logistic function or a polynomial of some sort? - Here, we are not actually blending across l : h the way the linear blend works.

Cheers

import matplotlib.pyplot as plt
import math
import numpy as np

def sigmaf(x):
m=np.mean(x)
a = []
for i in x:
a.append(1. / (1. + math.exp(-(i-m)/0.01)))
return a

def new_blender(ds1,ds2,h=0.2,l=0.15):
#This makes a linear blend:
a=(ds1-l)/(h-l)
b=(h-ds1)/(h-l)
out = (a*ds2)+b*ds1

#But we want something more like this:
##http://matlab.cheme.cmu.edu/2011/10/30/smooth-transitions-between-discontinuous-functions/
sig=sigmaf(ds1)
out=((1-np.array(sig))*(np.array(ds1)))+(sig*(np.array(ds2)))
#Close, but this still not blending exactly how we want

out = np.where(ds1 < l, ds1, out)
out = np.where(ds1 > h, ds2, out)
return out

def test_blender():
test_a=np.arange(0.1,0.3,0.001)
test_b=np.arange(0.3,0.5,0.001)
blend=new_blender(test_a,test_b)
#print(test_a)
#print(test_b)
#print(blend)
plt.plot(test_a)
plt.plot(test_b)
plt.plot(blend,linestyle=':',linewidth=3)
plt.show()
test_blender()