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The following code is to calculate nth term og fibonacci sequence in python using matrix exponentiation for various test cases t.But the program gives absurd output.Please tell me where i am wrong.when i ran the code in C++ it runs perfectly.

class matrix:
    def __init__(self):

    def mul(self,e,f):
        ret = matrix()
        return ret

    def exp(self,a,p):
            return temp
            return a
            return self.exp(self.mul(a,a),p/2)
            return self.mul(a,self.exp(self.mul(a,a),(p-1)/2))

    def fib(self,n):
        if (n==0):
            return 0
        if (n==1):
            return 1
        return s.d

    print v.fib(n)
share|improve this question
related: nth fibonacci number in sublinear time. Here's an implementation of algorithm from SICP (ignore the decorator and yield None, replace the last yield by return) – J.F. Sebastian May 27 '13 at 8:41
up vote 0 down vote accepted

There are several issues, in order of importance:

1) Your multiplication is wrong. Note the multiplications at the right where you have sums):

def mul(self,e,f):
    ret = matrix()
    return ret

2) In the last line, you do return s.d but you should return s.b or s.c or you will get one less fibonacci.

3) The line temp.a=temp.b=temp.c=temp.d=1 is not necessary because the constructor does the work. Besides it is wrong, because d should be 0.

4) Why are mul and exp class functions if they don't use self. It does no harm but they should be @staticmethod

5) Again, it does no harm but your second recursive call is unnecessarily complex. Just write:

    return matrix.mul(a,matrix.exp(a, p-1))
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Thanks a lot sir.... – Kartik Khare May 28 '13 at 5:19
Sir can you suggest where i should use modulo (%) so that it calculates fibonacci for large numbers (>10^7) in very less time – Kartik Khare May 28 '13 at 6:42
@KartikKhare: Please, don't call me "sir"... About your question, your modulo operation is well placed, my suggestion was just to change the else: part, because it is simpler this way (although equivalent). Anyway if you want to be extra fast you can calculate it in constant time using the Binet's formula. – rodrigo May 28 '13 at 16:27

The problem lies in your __init__ function. In python the so-called variables are just 'tags' to data in the memory. To compare with C/C++, these can be thought of as pointers. when you assign self.a = self.b = self.c, you are basically assigning three different names to the same data in the memory. Any change you make in a will be reflected back in b and c and so on.

For your problem where you need three separate variables, one way to change the __init__ function is like:

self.a, self.b, self.c = 1, 1, 1

or you can use copy. copy() tells python to assign a new memory location and then assign the tag on the right hand side to that location. For more read the official documentation on this You can also read a short walk-through on this in Python Tutorial: Shallow and Deep-copy

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once you have the idea that in python the variable are simply names, you can notice that the following statements: self.b = 1 self.a = self.b will assign two different 'variables' as self.b has now been determined by python to be an int and while assigning int objects a new object is created. Again refer to the python doc ref to understand when a new variable is created and when another name to the same variable is created on assignment. – goofd May 27 '13 at 7:41
You are right in principle, but wrong in this particular case: int values are immutable in Python, so a = b = 1 and a, b = 1, 1 won't have any different behavior. A different thing would be with mutable objects: a = b = []... – rodrigo May 27 '13 at 7:49
Thank you sir.But after making the above changes the program is still giving the same output. – Kartik Khare May 27 '13 at 7:53
refer to my comment above for clarification. In the first case self.a = self.b = self.c the object type has not been determined and hence the name will refer to the same variable as that is the default behavior. in the second case where self.b = 1 is followed by self.a = self.b, the type has been determined and hence self.a will be a new variable. you can verify this by using the command id(<object-name>) – goofd May 27 '13 at 7:55
@KartikKhare there are other instances of that behavior in your code. for example in your exp() function you again have an assignment temp.a = temp.b = temp.c = 1. As I mentioned in the above comment print id(<object-name>) to cross check what you are doing. It may also be worthwhile to run your code in []. It lets you visualize your code – goofd May 27 '13 at 7:56

I'm not sure if it is required for you to use matrix exponentiation for this problem. Unfortunately, I do not know much about Python classes quite yet. However, the following code does what the question heading wants: to find the n-th Fibonacci number. Below I describe this as F_n. Note the initial conditions for low values of n.

def fibN( n ):
fibonacci: int -> int
Returns F_n.
Note: F_1 = 0, F_2 = 1, F_3 = 1, F_4 = 2
n = abs( int( n ))
if n == 0:
    fib = 0
elif n == 1:
    fib = 1
    counter = 2  
    f0 = 0
    f1 = 1
    fib = f0 + f1
    while counter <= n:
        fib = f0 + f1
        f0 = f1
        f1 = fib
        counter += 1
return fib
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