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4.4 KiB

Let's jump right into the fun and start making pixel art with Open CV. Before you read this article, consider checkout out these articles:

Like most CV projects, we need to start by importing some libraries and loading an image.

# Open cv library
import cv2

# matplotlib for displaying the images 
from matplotlib import pyplot as plt

img = cv2.imread('dolphin.jpg')

I like to define scripts to print images nicely in a Jupyter notebook.

def printI(img):
    rgb = cv2.cvtColor(img, cv2.COLOR_BGR2RGB)
    plt.imshow(rgb)
    
def printI2(i1, i2):
    fig = plt.figure()
    ax1 = fig.add_subplot(1,2,1)
    ax1.imshow(cv2.cvtColor(i1, cv2.COLOR_BGR2RGB))
    ax2 = fig.add_subplot(1,2,2)
    ax2.imshow(cv2.cvtColor(i2, cv2.COLOR_BGR2RGB))
    
printI(img)

original image

To pixelate an image, we can use the open cv resize function. To make the image viewable, after we shrink the picture, we resize it again to be the size of the original image.

def pixelate(img, w, h):
    height, width = img.shape[:2]

    # Resize input to "pixelated" size
    temp = cv2.resize(img, (w, h), interpolation=cv2.INTER_LINEAR)

    # Initialize output image
    return cv2.resize(temp, (width, height), interpolation=cv2.INTER_NEAREST)

img16 = pixelate(img, 16, 16)

printI2(img, img16)

pixelated 16x16

We can try a few different shrinkage sizes. 32x32 seems to work the best.

img32 = pixelate(img, 32, 32)
img64 = pixelate(img, 64, 64)

printI2(img32, img64)

pixelated 32x42, 64x64

img8 = pixelate(img, 8, 8)
printI(img8)

original image 8x8 pixelated

Despite the images being pixelated, they have imperfections that normal pixel art wouldn't have. To remove the noise and make it look smoother, we will do k-means clustering on the pixelated images. K-means will reduce the number of colors in the image and eliminate any noise. Most of the clustering code is from my blog post: Image Clustering with K-means

import skimage
from sklearn.cluster import KMeans
from numpy import linalg as LA
import numpy as np

def colorClustering(idx, img, k):
    clusterValues = []
    for _ in range(0, k):
        clusterValues.append([])
    
    for r in range(0, idx.shape[0]):
        for c in range(0, idx.shape[1]):
            clusterValues[idx[r][c]].append(img[r][c])

    imgC = np.copy(img)

    clusterAverages = []
    for i in range(0, k):
        clusterAverages.append(np.average(clusterValues[i], axis=0))
    
    for r in range(0, idx.shape[0]):
        for c in range(0, idx.shape[1]):
            imgC[r][c] = clusterAverages[idx[r][c]]
            
    return imgC
def segmentImgClrRGB(img, k):
    
    imgC = np.copy(img)
    
    h = img.shape[0]
    w = img.shape[1]
    
    imgC.shape = (img.shape[0] * img.shape[1], 3)
    
    #5. Run k-means on the vectorized responses X to get a vector of labels (the clusters); 
    #  
    kmeans = KMeans(n_clusters=k, random_state=0).fit(imgC).labels_
    
    #6. Reshape the label results of k-means so that it has the same size as the input image
    #   Return the label image which we call idx
    kmeans.shape = (h, w)

    return kmeans
def kMeansImage(image, k):
    idx = segmentImgClrRGB(image, k)
    return colorClustering(idx, image, k)

printI(kMeansImage(img, 5))

original image with k means of 5

Running the k-means algorithm on the 32x32 bit image produces a cool look.

printI(kMeansImage(img32, 3))

32 bit k-means of 3 clusters

We can compare the original, pixelated, and clustered images side by side.

def printI3(i1, i2, i3):
    fig = plt.figure(figsize=(18,6))
    ax1 = fig.add_subplot(1,3,1)
    ax1.imshow(cv2.cvtColor(i1, cv2.COLOR_BGR2RGB))
    ax2 = fig.add_subplot(1,3,2)
    ax2.imshow(cv2.cvtColor(i2, cv2.COLOR_BGR2RGB))
    ax3 = fig.add_subplot(1,3,3)
    ax3.imshow(cv2.cvtColor(i3, cv2.COLOR_BGR2RGB))
    plt.savefig('trifecta.png')
printI3(img, img32, kMeansImage(img32, 3))

original, pixelated, k-means