The type you call
cv::Mat::at with needs to match the type of the individual pixels. Since
cv::Scalar is basically a
cv::Vec<double,4>, this won't work for a
U8C3 image (it would work for a
F64C4 image, of course).
In your case you need a
cv::Vec3b, which is a
Vec3b col = I.at<Vec3b>(i, j);
You can then convert this into a
cv::Scalar if you really need to, but the type of the
cv::Mat::at instantiation must match the type of your image, since it just casts the image data without any conversions.
Your second code snippet returns a pointer to the ith row of the image. It is no unrelated data, but just a pointer to single
uchar values. So in case of a
U8C3 image, every consecutive 3 elements in the data returned to
p should represent one pixel. Again, to get every pixel as a single element use
Vec3b *p = I.ptr<Vec3b>(i);
which again does nothing more than an appropriate cast of the row pointer before returning it.
EDIT: If you want to do many pixel accesses on the image, you can also use the
cv::Mat_ convenience type. This is nothing more than a typed thin wrapper around the image data, so that all accesses to image pixels are appropriately typed:
Mat_<Vec3b> &U = reinterpret_cast<Mat_<Vec3b>&>(I);
You can then freely use
U(i, j) and always get a 3-tuple of unsigned chars and therefore pixels, again without any copying, just type casts (and therefore at the same performance as