I have a five-dimensional rootfinding problem I'd like to solve from within a Sage notebook, but the functions I wish to solve depend on other parameters that shouldn't be varied during the rootfinding. Figuring out how to set up a call to, say, scipy.optimize.newton_krylov has got me stumped. So let's say I have (with a,b,c,d,e the parameters I want to vary, F1,F2,F3,F4,F5 the five expressions I which to solve to be equal to F1Val,F2Val,F3Val,F4Val,F5Val, values I already know, and posVal another known parameter)
def func(a, b, c, d, e, F1Val, F2Val, F3Val, F4Val, F5Val, posVal):
F1.subs(x1=a,x2=b,x3=c,x4=d,x5=e,position=posVal)
F2.subs(x1=a,x2=b,x3=c,x4=d,x5=e,position=posVal)
F3.subs(x1=a,x2=b,x3=c,x4=d,x5=e,position=posVal)
F4.subs(x1=a,x2=b,x3=c,x4=d,x5=e,position=posVal)
F5.subs(x1=a,x2=b,x3=c,x4=d,x5=e,position=posVal)
return (F1-F1Val, F2-F2Val, F3-F3Val, F4-F4Val, F5-F5Val)
and now I want to pass this to a rootfinding function to yield func = (0,0,0,0,0). I want to pass an initial guess (a0, b0, c0, d0, e0) vector and a set of arguments (F1Val, F2Val, F3Val, F4Val, F5Val, posVal) for the evaluation, but I can't figure out how to do this. Is there a standard technique for this sort of thing? The multidimensional rootfinders in scipy seem to be lacking the args=() variable that the 1D rootfinders offer.
Best,
-user2275987