# Producing 2D perlin noise with numpy

I'm trying to produce 2D perlin noise using numpy, but instead of something smooth I get this :

my broken perlin noise, with ugly squares everywhere

For sure, I'm mixing up my dimensions somewhere, probably when I combine the four gradients ... But I can't find it and my brain is melting right now. Anyone can help me pinpoint the problem ?

Anyway, here is the code:

``````%matplotlib inline
import numpy as np
import matplotlib.pyplot as plt

def perlin(x,y,seed=0):
# permutation table
np.random.seed(seed)
p = np.arange(256,dtype=int)
np.random.shuffle(p)
p = np.stack([p,p]).flatten()
# coordinates of the first corner
xi = x.astype(int)
yi = y.astype(int)
# internal coordinates
xf = x - xi
yf = y - yi
# noise components
# combine noises
x1 = lerp(n00,n10,u)
x2 = lerp(n10,n11,u)
return lerp(x2,x1,v)

def lerp(a,b,x):
"linear interpolation"
return a + x * (b-a)

"6t^5 - 15t^4 + 10t^3"
return 6 * t**5 - 15 * t**4 + 10 * t**3

"grad converts h to the right gradient vector and return the dot product with (x,y)"
vectors = np.array([[0,1],[0,-1],[1,0],[-1,0]])
g = vectors[h%4]
return g[:,:,0] * x + g[:,:,1] * y

lin = np.linspace(0,5,100,endpoint=False)
y,x = np.meshgrid(lin,lin)

plt.imshow(perlin(x,y,seed=0))
``````
• your interpolation uses corner `n10` twice and omits `n01` Feb 9 '17 at 22:16
• Good catch! After sleeping this through I made two other corrections and now it works ... editing the original post. Feb 10 '17 at 8:35

Thanks to Paul Panzer and a good night of sleep it works now ...

``````def perlin(x,y,seed=0):
# permutation table
np.random.seed(seed)
p = np.arange(256,dtype=int)
np.random.shuffle(p)
p = np.stack([p,p]).flatten()
# coordinates of the top-left
xi = x.astype(int)
yi = y.astype(int)
# internal coordinates
xf = x - xi
yf = y - yi
# noise components
# combine noises
x1 = lerp(n00,n10,u)
x2 = lerp(n01,n11,u) # FIX1: I was using n10 instead of n01
return lerp(x1,x2,v) # FIX2: I also had to reverse x1 and x2 here

def lerp(a,b,x):
"linear interpolation"
return a + x * (b-a)

"6t^5 - 15t^4 + 10t^3"
return 6 * t**5 - 15 * t**4 + 10 * t**3