"""
This is a pure Python implementation of Dynamic Programming solution to the fibonacci sequence problem.
"""


class Fibonacci:

    def __init__(self, N=None):
        self.fib_array = []
        if N:
            N = int(N)
            self.fib_array.append(0)
            self.fib_array.append(1)
            for i in range(2, N + 1):
                self.fib_array.append(self.fib_array[i - 1] + self.fib_array[i - 2])
        elif N == 0:
            self.fib_array.append(0)

    def get(self, sequence_no=None):
        if sequence_no != None:
            if sequence_no < len(self.fib_array):
                return print(self.fib_array[:sequence_no + 1])
            else:
                print("Out of bound.")
        else:
            print("Please specify a value")


if __name__ == '__main__':
    import sys

    print("\n********* Fibonacci Series Using Dynamic Programming ************\n")
    # For python 2.x and 3.x compatibility: 3.x has not raw_input builtin
    # otherwise 2.x's input builtin function is too "smart"
    if sys.version_info.major < 3:
        input_function = raw_input
    else:
        input_function = input

    print("\n Enter the upper limit for the fibonacci sequence: ", end="")
    try:
        N = eval(input())
        fib = Fibonacci(N)
        print(
            "\n********* Enter different values to get the corresponding fibonacci sequence, enter any negative number to exit. ************\n")
        while True:
            print("Enter value: ", end=" ")
            try:
                i = eval(input())
                if i < 0:
                    print("\n********* Good Bye!! ************\n")
                    break
                fib.get(i)
            except NameError:
                print("\nInvalid input, please try again.")
    except NameError:
        print("\n********* Invalid input, good bye!! ************\n")