I see a few solutions depending of who does the job.
First : adding a option to the cameras to enable tracking (disabled by default), an option that would update up/position/focus would be easy no ? Since it's just to multiply the previous vector by the transformation matrix at the same moment than we multiply the view matrix by the transformation matrix. But it may bring an additionnal cost in operations. Or we can compute it like in my "Second"
Second : if my memories are good, the transformation matrix T in a base B(O(x,y,z),i,*j*,k) has a well known-structure no ? Something like this (maybe I forget a transposition) :
i1 j1 k1 u1
i2 j2 k2 u2
i3 j3 k3 u3
0 0 0 1
Where :
([u1,u2,u3])=T(0(x,y,z)) i.e. gives the translation in the base B
([i1,i2,i3])=T(**i**)
([j1,j2,j3])=T(**j**)
([k1,k2,k3])=T(**k**)
Then if you want the 3 angles it is very harsh (see euler's calculations), but if you want something else it could be easier. For example you want the up vector which is the image of the "k" vector of the base B by our transformation T, so it is [j1,j2,j3] no ? Then, you cannot get easy the focus point, but you can easy get the focus vector : it is [k1,k2,k3] ! (actualy maybe it is -1*[k1,k2,k3]). If you look well the LookAt_ method of X.camera3D, it does not give a focus point to webgl but a normalized focus vector : the point position doesn't matter, you just need 1 point on the focus vector, and you can compute it now, no ? It's just a sum of currentposition & currentfocusvector coordinates.
I wish my memories are well and I am not saying total sh*t.
Just one question : there is a setter for the view matrix, so why do you want to store & set up/focus/position instead of directly storing and setting view ?
PS : caution, There could be a scale operator k, so the matrix would be different different, but I don't think there is in xtk.
PS 2 : in bold are vectors. [number,number,number] is a 3D vector shown by his coordinates.