# Rotate Opencv Matrix by 90, 180, 270 degrees

I'm capturing image from webcam and I need to rotate it by right angle. I found myself theese functions:

1. `getRotationMatrix2D` - to create rotation matrix (whatever it is)
2. `transform` - transform one matrix to another by rotation matrix

But, I don't get anything but black area. This is my code:

``````   if(rotate_button.click%4>0) {
double angle = (rotate_button.click%4)*90;  //button increments its click by 1 per click
Mat transform_m = getRotationMatrix2D(Point(cam_frame_width/2, cam_frame_height/2), angle, 1);  //Creating rotation matrix
Mat current_frame;
transform(cam_frame, current_frame, transform_m);  //Transforming captured image into a new one
cam_frame = Mat((int)current_frame.cols,(int)current_frame.rows, cam_frame_type) = Scalar(0,128,0);  //resizing captured matrix, so I can copy the resized one on it
current_frame.copyTo(cam_frame);  //Copy resized to original
}
``````

Outputs just black screen.

-
add comment

## 3 Answers

Use warpAffine.:

Try:

``````Point2f src_center(source.cols/2.0F, source.rows/2.0F);
Mat rot_mat = getRotationMatrix2D(src_center, angle, 1.0);
Mat dst;
warpAffine(source, dst, rot_mat, source.size());
``````

`dst` is the final image

-
add comment

@Abhishek Thakur's answer only works well for rotating the image by 180 degrees. It does not handle the rotation by 90 degrees because

• the center of rotation supplied to `getRotationMatrix2D` is incorrect, and
• output matrix size passed to `warpAffline` is incorrect.

Here's the code that rotates an image by 90 degrees:

``````Mat src = imread("image.jpg");
Mat dst;

double angle = 90;  // or 270
Size src_sz = src.size();
Size dst_sz(src_sz.height, src_sz.width);

int len = std::max(src.cols, src.rows);
Point2f center(len/2., len/2.);
Mat rot_mat = cv::getRotationMatrix2D(center, angle, 1.0);
warpAffine(src, dst, rot_mat, dst_sz);
``````

Edit: Another approach to rotate images by 90,180 or 270 degrees involves doing matrix `transpose` and then `flip`. This method is probably faster.

-
add comment

The above code works just fine, but introduces numerical error in the image due to the matrix computations being done in floating point and the warpAffine interpolation.

For a 90deg increment rotation I prefer to use the following (in python/opencv python)

Since OpenCV images in Python are 2d Numpy Arrays.

90 deg.
theImage = numpy.rot90( theImage, 1 )
270 deg.
theImage = numpy.rot90( theImage, 3 )

Note: I only tested this on gray scale images of shape ( X, Y ). If you have a color (or other multi-separation) image you might need to reshape it first to make sure that the rotation works along the correct axis.

-
add comment