You can rotate your data samples by multiplying the matrix of samples by a rotation matrix. A rotation matrix which creates a counterclockwise rotation of angle 'theta' about the origin in the 2-D plane can be created as follows:
R = [cos(theta) -sin(theta); sin(theta) cos(theta)];
For more information on rotation matrices you may refer to: https://en.wikipedia.org/wiki/Rotation_matrix
If, instead of rotating about the origin you wish to rotate about a specific point in the plane, you can first shift the points in the plane so that the desired center of rotation moves to the origin. Then you can do the rotation about the origin with the above matrix. Finally, after the rotation is done, shift the points back so that the center of origin is restored.
Here is an example of how this could be done in MATLAB:
% define the x- and y-data for the original line we would like to rotate
x = 1:10;
y = 1:10;
% create a matrix of these points, which will be useful in future calculations
v = [x;y];
% choose a point which will be the center of rotation
x_center = x(3);
y_center = y(3);
% create a matrix which will be used later in calculations
center = repmat([x_center; y_center], 1, length(x));
% define a 60 degree counter-clockwise rotation matrix
theta = pi/3; % pi/3 radians = 60 degrees
R = [cos(theta) -sin(theta); sin(theta) cos(theta)];
% do the rotation...
s = v - center; % shift points in the plane so that the center of rotation is at the origin
so = R*s; % apply the rotation about the origin
vo = so + center; % shift again so the origin goes back to the desired center of rotation
% this can be done in one line as:
% vo = R*(v - center) + center
% pick out the vectors of rotated x- and y-data
x_rotated = vo(1,:);
y_rotated = vo(2,:);
% make a plot
plot(x, y, 'k-', x_rotated, y_rotated, 'r-', x_center, y_center, 'bo');
axis equal
