Having fun with D3 geo orthographic projection to build an interactive globe, based on all the great examples I found.
You can see my simple mockup at http://bl.ocks.org/patricksurry/5721459
I want the user to manipulate the globe like a trackball (http://www.opengl.org/wiki/Trackball). I started with one of Mike's examples (http://mbostock.github.io/d3/talk/20111018/azimuthal.html), and improved slightly to use canvas coordinates and express the mouse locations in 'trackball coordinates' (i.e. rotation around canvas horizontal and vertical axes) so that a fixed mouse movement gives more rotation near the edges of the globe (and works outside the globe if you use the hyberbolic extension explained above), rather than Mike's one:one correspondence.
It works nicely when the globe starts at an unrotated position (north pole vertical), but when the globe is already rotated (manipulate the example so the north pole is facing out of the page) then the trackball controls become non-intuitive because you can't simply express a change in trackball coordinates as a delta in the d3.geo.rotate lat/lon coordinates. D3's 3-axis rotation involves applying a longitude rotation (spin around north pole), then a latitude rotation (spin around a horizontal axis in the canvas plane), and then a 'yaw' rotation (spin around an axis perpendicular to the plane) - see http://bl.ocks.org/mbostock/4282586.
I guess what I need is a method for composing my two rotation matrices (the one currently in the projection, with a new one to rotate the trackball slightly), but I can't see a way to do that in D3, other than digging into the source (https://github.com/mbostock/d3/blob/master/src/geo/rotation.js) and trying to do the math to define the rotation matrix. The code looks elegant but comment-free and I'm not sure I can correctly decipher the closures with the orthographic projection instance.
On the last point, if someone knows the rotation matrix form of d3.geo.projection that would probably solve my problem too.