For perspective transform you need,

source points->Coordinates of quadrangle vertices in the source image.

destination points-> Coordinates of the corresponding quadrangle vertices in the destination image.

Here we will calculate these point by contour process.

**Calculate Coordinates of quadrangle vertices in the source image**

- You will get the your card as contour by just by blurring, thresholding, then find contour, find largest contour etc..
- After finding largest contour just calculate approximates a polygonal curve, here you should get 4 Point which represent corners of your card. You can adjust the parameter
`epsilon`

to make 4 co-ordinates.

**Calculate Coordinates of the corresponding quadrangle vertices in the destination image**

- This can be easily find out by calculating bounding rectangle for largest contour.

In below image the red rectangle represent source points and green for destination points.

**Adjust the co-ordinates order and Apply Perspective transform**

See the final result

**Code**

```
Mat src=imread("card.jpg");
Mat thr;
cvtColor(src,thr,CV_BGR2GRAY);
threshold( thr, thr, 70, 255,CV_THRESH_BINARY );
vector< vector <Point> > contours; // Vector for storing contour
vector< Vec4i > hierarchy;
int largest_contour_index=0;
int largest_area=0;
Mat dst(src.rows,src.cols,CV_8UC1,Scalar::all(0)); //create destination image
findContours( thr.clone(), contours, hierarchy,CV_RETR_EXTERNAL, CV_CHAIN_APPROX_SIMPLE ); // Find the contours in the image
for( int i = 0; i< contours.size(); i++ ){
double a=contourArea( contours[i],false); // Find the area of contour
if(a>largest_area){
largest_area=a;
largest_contour_index=i; //Store the index of largest contour
}
}
drawContours( dst,contours, largest_contour_index, Scalar(255,255,255),CV_FILLED, 8, hierarchy );
vector<vector<Point> > contours_poly(1);
approxPolyDP( Mat(contours[largest_contour_index]), contours_poly[0],5, true );
Rect boundRect=boundingRect(contours[largest_contour_index]);
if(contours_poly[0].size()==4){
std::vector<Point2f> quad_pts;
std::vector<Point2f> squre_pts;
quad_pts.push_back(Point2f(contours_poly[0][0].x,contours_poly[0][0].y));
quad_pts.push_back(Point2f(contours_poly[0][1].x,contours_poly[0][1].y));
quad_pts.push_back(Point2f(contours_poly[0][3].x,contours_poly[0][3].y));
quad_pts.push_back(Point2f(contours_poly[0][2].x,contours_poly[0][2].y));
squre_pts.push_back(Point2f(boundRect.x,boundRect.y));
squre_pts.push_back(Point2f(boundRect.x,boundRect.y+boundRect.height));
squre_pts.push_back(Point2f(boundRect.x+boundRect.width,boundRect.y));
squre_pts.push_back(Point2f(boundRect.x+boundRect.width,boundRect.y+boundRect.height));
Mat transmtx = getPerspectiveTransform(quad_pts,squre_pts);
Mat transformed = Mat::zeros(src.rows, src.cols, CV_8UC3);
warpPerspective(src, transformed, transmtx, src.size());
Point P1=contours_poly[0][0];
Point P2=contours_poly[0][1];
Point P3=contours_poly[0][2];
Point P4=contours_poly[0][3];
line(src,P1,P2, Scalar(0,0,255),1,CV_AA,0);
line(src,P2,P3, Scalar(0,0,255),1,CV_AA,0);
line(src,P3,P4, Scalar(0,0,255),1,CV_AA,0);
line(src,P4,P1, Scalar(0,0,255),1,CV_AA,0);
rectangle(src,boundRect,Scalar(0,255,0),1,8,0);
rectangle(transformed,boundRect,Scalar(0,255,0),1,8,0);
imshow("quadrilateral", transformed);
imshow("thr",thr);
imshow("dst",dst);
imshow("src",src);
imwrite("result1.jpg",dst);
imwrite("result2.jpg",src);
imwrite("result3.jpg",transformed);
waitKey();
}
else
cout<<"Make sure that your are getting 4 corner using approxPolyDP..."<<endl;
```

`Img`

as, and how are you interpreting the output lines?