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OpenCV 3.x with Python By Example

You're reading from   OpenCV 3.x with Python By Example Make the most of OpenCV and Python to build applications for object recognition and augmented reality

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Product type Paperback
Published in Jan 2018
Publisher Packt
ISBN-13 9781788396905
Length 268 pages
Edition 2nd Edition
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Authors (2):
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Gabriel Garrido Calvo Gabriel Garrido Calvo
Author Profile Icon Gabriel Garrido Calvo
Gabriel Garrido Calvo
Prateek Joshi Prateek Joshi
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Prateek Joshi
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Table of Contents (17) Chapters Close

Title Page
Copyright and Credits
Contributors
Packt Upsell
Preface
1. Applying Geometric Transformations to Images FREE CHAPTER 2. Detecting Edges and Applying Image Filters 3. Cartoonizing an Image 4. Detecting and Tracking Different Body Parts 5. Extracting Features from an Image 6. Seam Carving 7. Detecting Shapes and Segmenting an Image 8. Object Tracking 9. Object Recognition 10. Augmented Reality 11. Machine Learning by an Artificial Neural Network 1. Other Books You May Enjoy

Image rotation


In this section, we will see how to rotate a given image by a certain angle. We can do it using the following piece of code:

import cv2
import numpy as np
img = cv2.imread('images/input.jpg')num_rows, num_cols = img.shape[:2]
rotation_matrix = cv2.getRotationMatrix2D((num_cols/2, num_rows/2), 30, 0.7)
img_rotation = cv2.warpAffine(img, rotation_matrix, (num_cols, num_rows))
cv2.imshow('Rotation', img_rotation)
cv2.waitKey()

If you run the preceding code, you will see an image like this:

What just happened?

Using getRotationMatrix2D, we can specify the center point around which the image would be rotated as the first argument, then the angle of rotation in degrees, and a scaling factor for the image at the end. We use 0.7 to shrink the image by 30% so it fits in the frame.

In order to understand this, let's see how we handle rotation mathematically. Rotation is also a form of transformation, and we can achieve it by using the following transformation matrix:

Here, θ is the angle of rotation in the counterclockwise direction. OpenCV provides finer control over the creation of this matrix through the getRotationMatrix2D function. We can specify the point around which the image would be rotated, the angle of rotation in degrees, and a scaling factor for the image. Once we have the transformation matrix, we can use the warpAffine function to apply this matrix to any image.

As we can see from the previous figure, the image content goes out of bounds and gets cropped. In order to prevent this, we need to provide enough space in the output image.

Let's go ahead and do that using the translation functionality we discussed earlier:

import cv2
import numpy as np

img = cv2.imread('images/input.jpg')
num_rows, num_cols = img.shape[:2]

translation_matrix = np.float32([ [1,0,int(0.5*num_cols)], [0,1,int(0.5*num_rows)] ])
rotation_matrix = cv2.getRotationMatrix2D((num_cols, num_rows), 30, 1)

img_translation = cv2.warpAffine(img, translation_matrix, (2*num_cols, 2*num_rows))
img_rotation = cv2.warpAffine(img_translation, rotation_matrix, (num_cols*2, num_rows*2))

cv2.imshow('Rotation', img_rotation)
cv2.waitKey()

If we run the preceding code, we will see something like this:

You have been reading a chapter from
OpenCV 3.x with Python By Example - Second Edition
Published in: Jan 2018
Publisher: Packt
ISBN-13: 9781788396905
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