How about using
interp1 for interpolating a spline? Let's say
fold = 10 is the approximate increase in resolution you want. Then,
[x, y] = ginput() without a specific upper limit of points. The number of points the user specified is
n = length(x). Then,
t = 1 : (1/fold) : n;
xi = interp1(1 : n, x, t, 'spline');
yi = interp1(1 : n, y, t, 'spline');
plot(xi, yi, 'linewidth', 3);
gives you the following, where the red blobs mark the points where I clicked. You have to press Enter to stop collecting coordinates.
fold-fold resampled coordinates of
'spline' as the interpolation method. You could have a look at this for other options.
dx = xi(1 : end-1) - xi(2 : end);
dy = yi(1 : end-1) - yi(2 : end);
d = sum(sqrt(dx.^2 + dy.^2));
d is roughly the length of that spline, calculated as the sum of the length of all edges. In the case shown above,
d = 118.97.