Here is my solution, using **mask**:

The idea is construct a `Mat mask`

by assigning 255 to my `RotatedRect ROI`

.

How to know which point is in ROI (which should be assign to 255)?

I use the following function `isInROI`

to address the problem.

```
/** decide whether point p is in the ROI.
*** The ROI is a rotated rectange whose 4 corners are stored in roi[]
**/
bool isInROI(Point p, Point2f roi[])
{
double pro[4];
for(int i=0; i<4; ++i)
{
pro[i] = computeProduct(p, roi[i], roi[(i+1)%4]);
}
if(pro[0]*pro[2]<0 && pro[1]*pro[3]<0)
{
return true;
}
return false;
}
/** function pro = kx-y+j, take two points a and b,
*** compute the line argument k and j, then return the pro value
*** so that can be used to determine whether the point p is on the left or right
*** of the line ab
**/
double computeProduct(Point p, Point2f a, Point2f b)
{
double k = (a.y-b.y) / (a.x-b.x);
double j = a.y - k*a.x;
return k*p.x - p.y + j;
}
```

How to construct the **mask**?

Using the following code.

```
Mat mask = Mat(image.size(), CV_8U, Scalar(0));
for(int i=0; i<image.rows; ++i)
{
for(int j=0; j<image.cols; ++j)
{
Point p = Point(j,i); // pay attention to the cordination
if(isInROI(p,vertices))
{
mask.at<uchar>(i,j) = 255;
}
}
}
```

Done,

vancexu