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I have a function y = f(x) defined as a sum of two trigonometric functions (with different pulsations). I defined an interval [0,T] for which the function is invertible. I provided the formula below.

def initial_function(t):
    return 0.5*(m_plus-m_minus+A_plus*math.cos(w_plus*t+phi_plus)-A_minus*math.cos(w_minus*t+phi_minus))

I would like to compute the function x=g(y), inverse of the initial function, and its first derivative and second derivative. What is the best way to proceed ?

I need the algorithm to run as fast as possible as I am constantly calling this function when the program is running. Offline computation are possible.

share|improve this question
4  
define a reasonably small increment i and precompute all pairs (f(n*i), n*i) for n = 0..ceil(T/i), store the result in an array indexed by possible values of n. when calling, use floor(y/i) as an index into this array. – collapsar Aug 8 '13 at 16:44
    
Would you mind writing the inverse function of the initial_function? A quick run through both mathematica and maple did not return any useful results. – Ophion Aug 8 '13 at 17:29
    
Actually, the function is not invertible analytically (I also tried via maple and mathematica) so I do not know the expression of g. – Vincent Aug 9 '13 at 7:58

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