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I am using open CV,in IOS. I already detected the boundary of the paper sheet in an Image as show in image and , Now I have to drag these boundary line on touch for adjusting the crop frame. how we can adjust boundary line and how we can crop image inside the boundary?

This is possible in openCV or I use openGL for this?

@moosgummi : I call your method in below method

- (cv::Mat)finshWork:(cv::Mat &)image

Mat img0 =image;

Mat img1;
cvtColor(img0, img1, CV_RGB2GRAY);

// apply your filter
Canny(img1, img1, 100, 200);

// find the contours
vector< vector<cv::Point> > contours;
findContours(img1, contours, CV_RETR_EXTERNAL, CV_CHAIN_APPROX_NONE);

// you could also reuse img1 here
Mat mask = Mat::zeros(img1.rows, img1.cols, CV_8UC1);

// CV_FILLED fills the connected components found
drawContours(mask, contours, -1, Scalar(255), CV_FILLED);

// let's create a new image now
Mat crop(img0.rows, img0.cols, CV_8UC3);

// set background to green

// and copy the magic apple
img0.copyTo(crop, mask);

// normalize so imwrite(...)/imshow(...) shows the mask correctly!
normalize(mask.clone(), mask, 0.0, 255.0, CV_MINMAX, CV_8UC1);

std::vector<cv::Point> biggestContour = contours[contours.size()-1];


cv::Mat paperImage =[self getPaperAreaFromImage:image:biggestContour];

//return crop;
return paperImage;


Thanks All

enter image description here

share|improve this question
How did you create the grid? Would you be willing to share some sample code? I have similar questions, posted here: stackoverflow.com/questions/13269432/… – mmackh Nov 7 '12 at 13:08
@Gryphon I am interested to know this as well. How did you create the grid? – alandalusi Nov 27 '12 at 10:44
@Gryphon please see my post stackoverflow.com/questions/13594391/… – alandalusi Nov 27 '12 at 23:00
@alandalusi this is example image of genius scan, I am detecting corners through openCV. – QueueOverFlow Nov 28 '12 at 4:01
@Gryphon Aha.. Understood. So now we have the same quest. BTW, Did the code above work fine with you to detect the boundaries? – alandalusi Nov 28 '12 at 6:55
up vote 9 down vote accepted

After you got the corners you have to deskewing the paper and "extract" it to a new image.

You should do the following:

  1. Sort corner points (the order matters; they must be in the same order in both vectors)
  2. cv::getAffineTransform
  3. cv::warpAffine

I wrote myself a helper function, which takes a std::vector with four cv::Point in it and sorts them in clockwise order beginning in the upper left. For more information on this topic take a look at these thread:

Another thing you should take into account is the size of the paper you want to extract. In my example I assume you're extracting a DIN A4 paper (210x297mm). Feel free to edit paperWidth and paperHeight inside my code.

Combining everything looks like this:

// Helper
cv::Point getCenter( std::vector<cv::Point> points ) {

    cv::Point center = cv::Point( 0.0, 0.0 );

    for( size_t i = 0; i < points.size(); i++ ) {
        center.x += points[ i ].x;
        center.y += points[ i ].y;

    center.x = center.x / points.size();
    center.y = center.y / points.size();

    return center;


// Helper;
// 0----1
// |    |
// |    |
// 3----2
std::vector<cv::Point> sortSquarePointsClockwise( std::vector<cv::Point> square ) {

    cv::Point center = getCenter( square );

    std::vector<cv::Point> sorted_square;
    for( size_t i = 0; i < square.size(); i++ ) {
        if ( (square[i].x - center.x) < 0 && (square[i].y - center.y) < 0 ) {
            switch( i ) {
                case 0:
                    sorted_square = square;
                case 1:
                    sorted_square.push_back( square[1] );
                    sorted_square.push_back( square[2] );
                    sorted_square.push_back( square[3] );
                    sorted_square.push_back( square[0] );
                case 2:
                    sorted_square.push_back( square[2] );
                    sorted_square.push_back( square[3] );
                    sorted_square.push_back( square[0] );
                    sorted_square.push_back( square[1] );
                case 3:
                    sorted_square.push_back( square[3] );
                    sorted_square.push_back( square[0] );
                    sorted_square.push_back( square[1] );
                    sorted_square.push_back( square[2] );

    return sorted_square;


// Helper
float distanceBetweenPoints( cv::Point p1, cv::Point p2 ) {

    if( p1.x == p2.x ) {
        return abs( p2.y - p1.y );
    else if( p1.y == p2.y ) {
        return abs( p2.x - p1.x );
    else {
        float dx = p2.x - p1.x;
        float dy = p2.y - p1.y;
        return sqrt( (dx*dx)+(dy*dy) );

cv::Mat getPaperAreaFromImage( cv::Mat image, std::vector<cv::Point> square )

    // declare used vars
    int paperWidth  = 210; // in mm, because scale factor is taken into account
    int paperHeight = 297; // in mm, because scale factor is taken into account
    cv::Point2f imageVertices[4];
    float distanceP1P2;
    float distanceP1P3;
    BOOL isLandscape = true;
    int scaleFactor;
    cv::Mat paperImage;
    cv::Mat paperImageCorrected;
    cv::Point2f paperVertices[4];

    // sort square corners for further operations
    square = sortSquarePointsClockwise( square );

    // rearrange to get proper order for getPerspectiveTransform()
    imageVertices[0] = square[0];
    imageVertices[1] = square[1];
    imageVertices[2] = square[3];
    imageVertices[3] = square[2];

    // get distance between corner points for further operations
    distanceP1P2 = distanceBetweenPoints( imageVertices[0], imageVertices[1] );
    distanceP1P3 = distanceBetweenPoints( imageVertices[0], imageVertices[2] );

    // calc paper, paperVertices; take orientation into account
    if ( distanceP1P2 > distanceP1P3 ) {
        scaleFactor =  ceil( lroundf(distanceP1P2/paperHeight) ); // we always want to scale the image down to maintain the best quality possible
        paperImage = cv::Mat( paperWidth*scaleFactor, paperHeight*scaleFactor, CV_8UC3 );
        paperVertices[0] = cv::Point( 0, 0 );
        paperVertices[1] = cv::Point( paperHeight*scaleFactor, 0 );
        paperVertices[2] = cv::Point( 0, paperWidth*scaleFactor );
        paperVertices[3] = cv::Point( paperHeight*scaleFactor, paperWidth*scaleFactor );
    else {
        isLandscape = false;
        scaleFactor =  ceil( lroundf(distanceP1P3/paperHeight) ); // we always want to scale the image down to maintain the best quality possible
        paperImage = cv::Mat( paperHeight*scaleFactor, paperWidth*scaleFactor, CV_8UC3 );
        paperVertices[0] = cv::Point( 0, 0 );
        paperVertices[1] = cv::Point( paperWidth*scaleFactor, 0 );
        paperVertices[2] = cv::Point( 0, paperHeight*scaleFactor );
        paperVertices[3] = cv::Point( paperWidth*scaleFactor, paperHeight*scaleFactor );

    cv::Mat warpMatrix = getPerspectiveTransform( imageVertices, paperVertices );
    cv::warpPerspective(_image, paperImage, warpMatrix, paperImage.size(), cv::INTER_LINEAR, cv::BORDER_CONSTANT );

    // we want portrait output
    if ( isLandscape ) {
        cv::transpose(paperImage, paperImageCorrected);
        cv::flip(paperImageCorrected, paperImageCorrected, 1);
        return paperImageCorrected;

    return paperImage;



// ... get paper square ...

cv::Mat paperImage = getPaperAreaFromImage( srcImage, paperSquare );
share|improve this answer
thanks for your Answer, I am trying this – QueueOverFlow Nov 23 '12 at 12:47
Thanks for your help, it executed without any error , but image not shown in output, sometime imageView black and sometime Gray, any Idea? – QueueOverFlow Nov 23 '12 at 14:40
i edited the question please have a look. – QueueOverFlow Nov 23 '12 at 14:46
Did you sort your contours to really get the biggest one? This code is working. I'm using it in an app right now, which has no problems ... – dom Nov 23 '12 at 15:19
yes, I pass the biggest square to your method, and its work fine.. Thanks a lot. but now issue is when My image width is greater then image height it rotate the cropped image, and also inverse the character in images some time, Really I am struggling very much, you help me a lot thanks – QueueOverFlow Nov 26 '12 at 5:50

What you should do is :

  1. Feed the 4 corners that you have found and the 4 real corners of the image to cv::getPerspectiveTransform. It will give you a matrix of the perspective transformation that will warp the quadrangle to the whole image.

  2. Use cv::WarpPerspective to create the image you want.

The links will take you to the documentation.

EDIT : You could use cv::findHomography to do step 1. But this is more about having a lot of corresponding points and outliers.

EDIT : Here is an example. It is with the C interface but you could easily make it to work with the c++

#include <stdio.h>
#include "highgui.h"
#include "cv.h"

int main( int argc, char** argv ) {
    // cvLoadImage determines an image type and creates datastructure with appropriate size
    IplImage* img = cvLoadImage( argv[1], CV_LOAD_IMAGE_COLOR);
    IplImage* img1 = cvCreateImage(
            cvSize(img->width, img->height),

    cvNamedWindow( "out", CV_WINDOW_AUTOSIZE );
    cvShowImage( "out", img1 );
    // create a window. Window name is determined by a supplied argument
    cvNamedWindow( argv[1], CV_WINDOW_AUTOSIZE );
    // Display an image inside and window. Window name is determined by a supplied argument
    cvShowImage( argv[1], img );

    // The part you need
    // Here is the points that you take the image from (the small quadrangle)
    CvPoint2D32f first[4] = {
      {(img->width /4)* 3, img->height /4    },
      { img->width /4    ,(img->height /4) *3},
      {(img->width /4)* 3,(img->height /4) *3},
    // Here are the points that you draw the quadrangle into (the four corners)
    CvPoint2D32f second[4] = {
    // The part you need
    CvMat *transform = cvCreateMat(3,3, CV_32F);
    cvGetPerspectiveTransform(first,second, transform);
    cvWarpPerspective(img, img1, transform, CV_INTER_LINEAR+CV_WARP_FILL_OUTLIERS,
    // End of part you need

    cvShowImage( "out", img1 );

    // wait indefinitely for keystroke
    // release pointer to an object
    cvReleaseImage( &img );
    // Destroy a window
    cvDestroyWindow( argv[1] );

You should replace the array first with end points of the quadrangle you have found.

EDIT : Here are some samples. I haven't looked them very well.

Geometric Image Transformations


share|improve this answer
can you provide any link or example regarding this. – QueueOverFlow Nov 22 '12 at 10:22
Added code sample. – Dimitar Slavchev Nov 23 '12 at 11:53

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