# OpenCV warpPerspective - how to know destination image size?

Ok, I have to admit that I am a novice to OpenCV and that my MATLAB/lin. Algebra knowledge might be introducing a bias. But what I want to do is really simple, while I still did not manage to find an answer.

When trying to rectify an image (or part of an image) under a perspective transformation, you basically perform two steps (assuming you have the 4 points that define the distorted object):

1. find the transformation between some perfect rectangle and the distorted shape (in OpenCV, via `findHomography()` or `getPerspectiveTransform()` - why those two operate differently on the same points is another story, also frustrating); this gives us a matrix T.
2. apply the inverse of T to the initially distorted shape to transform it into a rectangle (in OpenCV, this is done with `warpPerspective()`).

Now, this last function (`warpPerspective()`) asks the user to specify the size of the destination image.

My question is how the users should know beforehand what that size would be. The low-level way of doing it is simply applying the transformation T to the corner points of the image in which the object is found, thus guaranteeing that you don't get out of the bounds with the newly transformed shape. However, even if you take the matrix out of T and apply it manually to those points, the result looks weird.

Is there a way to do this in OpenCV? Thanks!

P.S. Below is some code:

``````float leftX, lowerY, rightX, higherY;

float minX = std::numeric_limits<float>::max(), maxX = std::numeric_limits<float>::min(), minY = std::numeric_limits<float>::max(), maxY = std::numeric_limits<float>::min();

Mat value, pt;
for(int i=0; i<4; i++)
{
switch(i)
{
case 0:
pt = (Mat_<float>(3, 1) << 1.00,1.00,1.00);
break;
case 1:
pt = (Mat_<float>(3, 1) << srcIm.cols,1.00,1.00);
break;
case 2:
pt = (Mat_<float>(3, 1) << 1.00,srcIm.rows,1.00);
break;
case 3:
pt = (Mat_<float>(3, 1) << srcIm.cols,srcIm.rows,1.00);
break;
default:
cerr << "Wrong switch." << endl;
break;
}
value = invH*pt;
value /= value.at<float>(2);
minX = min(minX,value.at<float>(0));
maxX = max(maxX,value.at<float>(0));
minY = min(minY,value.at<float>(1));
maxY = max(maxY,value.at<float>(1));
}
leftX = std::min<float>(1.00,-minX);
lowerY = std::min<float>(1.00,-minY);
rightX = max(srcIm.cols-minX,maxX-minX);
higherY = max(srcIm.rows-minY,maxY-minY);

warpPerspective(srcIm, dstIm, H, Size(rightX-leftX,higherY-lowerY), cv::INTER_CUBIC);
``````

UPDATE: Perhaps my results do not look good because the matrix I'm using is wrong. As I cannot observe what's happening inside `getPerspectiveTransform()`, I cannot know how this matrix is computed, but it has some very small and very large values, which makes me think they are garbage. This is the way I obtain the data from T:

``````for(int row=0;row<3;row++)
for(int col=0;col<3;col++)
T.at<float>(row,col) = ((float*)(H.data + (size_t)H.step*row))[col];
``````

(Although the output matrix from `getPerspectiveTransform()` is 3x3, trying to access its values directly via `T.at<float>(row,col)` leads to a segmentation fault.)

Is this the right way to do it? Perhaps this is why the original issue arises, because I do not get the correct matrix...

-
Your low-level way seems correct to me. What do you mean by "the result looks weird"? Can you create a minimal example code to show the problem? –  Dobi Aug 8 '13 at 10:35
I mean that the coordinates I get are inside the original image (the result looks weird because I display an image, and it's only a part of it), which probably means that the matrix T is different from what I expect. It's normalized or something like that, not meant to operate on points directly...? –  bloodymir Aug 8 '13 at 10:51
@Dobi I added some code on how I obtain the matrix values in the first place. Perhaps this is where the error arises... –  bloodymir Aug 9 '13 at 12:57
Why not minimum example with which we can immediately reproduce your problem? :) –  Dobi Aug 9 '13 at 14:53

If the result looks wierd, it's maybe because your points aren't correctly set in getPerspectiveTransform. Your vector of points need to be in the right order (top-left, top-right, bottom-right, bottom-left).

But to answer your initial question, there's no such thing as the "optimal output size". You have to decide depending on what you want to do. Try and try to find the size that fits you.

EDIT :

If the problem comes from the transformation matrix, how do you create it ? A good way in openCV to do it is this :

``````vector<Point2f> corners;
corners.push_back(topleft);
corners.push_back(topright);
corners.push_back(bottomright);
corners.push_back(bottomleft);

// Corners of the destination image
// output is the output image, should be defined before this operation
vector<cv::Point2f> output_corner;
output_corner.push_back(cv::Point2f(0, 0));
output_corner.push_back(cv::Point2f(output.cols, 0));
output_corner.push_back(cv::Point2f(output.cols, output.rows));
output_corner.push_back(cv::Point2f(0, output.rows));

// Get transformation matrix
Mat H = getPerspectiveTransform(corners, output_corner);
``````
-
The points are in the right order, because the image (or part of it) is correctly rectified, it's just being cropped unless you manually specify a large enough size for the output. Btw, it should really NOT be the case that the order as you propose should be fixed, as long as the sequence of points is always the same. And if trial and error is the only way to fit the output image to the proper size, I have to say that's quite ridiculous. –  bloodymir Aug 8 '13 at 13:48
What do you want to do with the cropped image ? What is or should be the size of the detail you crop in the image ? That's things that cannot be detected automatically –  Dimitri Mockelyn Aug 8 '13 at 13:52
If I understood correctly, it's not a question of scale, but of cropping. What I want to do is fit the image size to the dimensions of the rectified rectangle. There is a low-level way of doing this (see my exchange with Dobi), but that doesn't seem to work (mathematically, warping is simply multiplying every point by the transformation matrix T). So how do I know what the extent of that rectangle is? –  bloodymir Aug 8 '13 at 14:06
You should post your code, to help us understand what's wrong –  Dimitri Mockelyn Aug 8 '13 at 14:10
I edited the original post/question to include the code relating to transformation of corners. –  bloodymir Aug 9 '13 at 9:24
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