31

This question already has an answer here:

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.

marked as duplicate by Raidri, m0nhawk, Chubas, tinlyx, Chen-Tsu Lin Apr 30 '15 at 18:58

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • 5
    This question is about C++, while the other question relies on the Java interface. Some answers use a C++ interface, but this is not a sufficient reason to mark this question as duplicate. – Antonio May 19 '15 at 14:04
30

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

  • 7
    This answer is valid and great for arbitrary rotation, however, the question was for a 90deg (modulo) rotation. i.e. your affine transform will be i guess dozens of times more computationally intensive than a transpose and flip combination. (see my answer below). – TimZaman Jul 24 '14 at 9:37
  • Terrible! Affine will interpolate and use a lot of floating point arithmetics. and it is not even Euclidean rigid transform that was asked for. Flipping will be much more effective. – Vlad Jan 9 at 17:28
116

The above answers are too complex and hog your CPU. Your question was not arbitrary rotation, but 'Rotate Opencv Matrix by 90, 180, 270 degrees'.

UPDATE 30 JUN 2017:

This functionality is supported by OpenCV, but not documented: https://github.com/opencv/opencv/blob/master/modules/core/include/opencv2/core.hpp#L1041

void rotate(InputArray src, OutputArray dst, int rotateCode);

with

enum RotateFlags {
    ROTATE_90_CLOCKWISE = 0, //Rotate 90 degrees clockwise
    ROTATE_180 = 1, //Rotate 180 degrees clockwise
    ROTATE_90_COUNTERCLOCKWISE = 2, //Rotate 270 degrees clockwise
};

Original Answer & Arbitrary degree rotation:

You can also do this by using flip and transpose operation, ie for 90CW:

transpose(matSRC, matROT);  
flip(matROT, matROT,1); //transpose+flip(1)=CW

etc. Figure out the other commands yourself (thinking=learning) by introducing yourself with the transpose and flip operation form the Docs.

void rot90(cv::Mat &matImage, int rotflag){
  //1=CW, 2=CCW, 3=180
  if (rotflag == 1){
    transpose(matImage, matImage);  
    flip(matImage, matImage,1); //transpose+flip(1)=CW
  } else if (rotflag == 2) {
    transpose(matImage, matImage);  
    flip(matImage, matImage,0); //transpose+flip(0)=CCW     
  } else if (rotflag ==3){
    flip(matImage, matImage,-1);    //flip(-1)=180          
  } else if (rotflag != 0){ //if not 0,1,2,3:
    cout  << "Unknown rotation flag(" << rotflag << ")" << endl;
  }
}

So you call it like this, and note the matrix is passed by reference.

cv::Mat matImage;
//Load in sensible data
rot90(matImage,3); //Rotate it

//Note if you want to keep an original unrotated version of 
// your matrix as well, just do this
cv::Mat matImage;
//Load in sensible data
cv::Mat matRotated = matImage.clone();
rot90(matImage,3); //Rotate it

Rotate by arbitrary degrees While I'm at it, here is how to rotate by an arbitrary degree, which i expect to be 50x more expensive. Note that rotation in this manner will include black padding, and edges will be rotated to oustide of the image's original size.

void rotate(cv::Mat& src, double angle, cv::Mat& dst){
    cv::Point2f ptCp(src.cols*0.5, src.rows*0.5);
    cv::Mat M = cv::getRotationMatrix2D(ptCp, angle, 1.0);
    cv::warpAffine(src, dst, M, src.size(), cv::INTER_CUBIC); //Nearest is too rough, 
}

Calling this for a rotation of 10.5 degrees then is obviously:

cv::Mat matImage, matRotated;
//Load in data
rotate(matImage, 10.5, matRotated);

I find it remarkable that these kind of extremely basic functions are not part of OpenCV, while OpenCV does have native things like face detection (that's not really maintained with questionable performance). Remarkable.

Cheers

  • Thanks for the tip, it was really helpful for my use case! – Razvan Mar 28 '16 at 14:45
  • 1
    This should be the accepted answer for this specific question – marcman Sep 16 '16 at 17:55
  • This is what I was looking for. This is the only answer that specifically focused on rotating the image by multiples of 90 degrees without the need for warpAffine. – rayryeng Jun 15 '17 at 16:11
  • @TimZaman: actually it does appear to be in opencv, though I could only find it in source code, not in the docs: github.com/opencv/opencv/blob/master/modules/core/include/…. See void rotate(InputArray src, OutputArray dst, int rotateCode) in core.hpp – tdp2110 Jun 29 '17 at 16:40
  • 1
    @tdp2110 in-place is fine. Thanks for you suggestion! Ipdated the answer. – TimZaman Jun 30 '17 at 18:56
8

@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.

  • This answer is way too complicated compared to the obvious simple solution given above. The edit refers to a link that uses the simple solution but in a loop and is therefore also slower than my answer already given above. – TimZaman Sep 16 '16 at 18:13
0

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.

  • 4
    This is not in the correct language. – TimZaman Jun 2 '14 at 8:35