# fibonacci.py """ 1. Calculates the iterative fibonacci sequence 2. Calculates the fibonacci sequence with a formula an = [ Phin - (phi)n ]/Sqrt[5] reference-->Su, Francis E., et al. "Fibonacci Number Formula." Math Fun Facts. """ import math import functools import time from decimal import getcontext, Decimal getcontext().prec = 100 def timer_decorator(func): @functools.wraps(func) def timer_wrapper(*args, **kwargs): start = time.time() func(*args, **kwargs) end = time.time() if int(end - start) > 0: print(f"Run time for {func.__name__}: {(end - start):0.2f}s") else: print(f"Run time for {func.__name__}: {(end - start)*1000:0.2f}ms") return func(*args, **kwargs) return timer_wrapper # define Python user-defined exceptions class Error(Exception): """Base class for other exceptions""" class ValueTooLargeError(Error): """Raised when the input value is too large""" class ValueTooSmallError(Error): """Raised when the input value is not greater than one""" class ValueLessThanZero(Error): """Raised when the input value is less than zero""" def _check_number_input(n, min_thresh, max_thresh=None): """ :param n: single integer :type n: int :param min_thresh: min threshold, single integer :type min_thresh: int :param max_thresh: max threshold, single integer :type max_thresh: int :return: boolean """ try: if n >= min_thresh and max_thresh is None: return True elif min_thresh <= n <= max_thresh: return True elif n < 0: raise ValueLessThanZero elif n < min_thresh: raise ValueTooSmallError elif n > max_thresh: raise ValueTooLargeError except ValueLessThanZero: print("Incorrect Input: number must not be less than 0") except ValueTooSmallError: print( f"Incorrect Input: input number must be > {min_thresh} for the recursive " "calculation" ) except ValueTooLargeError: print( f"Incorrect Input: input number must be < {max_thresh} for the recursive " "calculation" ) return False @timer_decorator def fib_iterative(n): """ :param n: calculate Fibonacci to the nth integer :type n:int :return: Fibonacci sequence as a list """ n = int(n) if _check_number_input(n, 2): seq_out = [0, 1] a, b = 0, 1 for _ in range(n - len(seq_out)): a, b = b, a + b seq_out.append(b) return seq_out @timer_decorator def fib_formula(n): """ :param n: calculate Fibonacci to the nth integer :type n:int :return: Fibonacci sequence as a list """ seq_out = [0, 1] n = int(n) if _check_number_input(n, 2, 1000000): sqrt = Decimal(math.sqrt(5)) phi_1 = Decimal(1 + sqrt) / Decimal(2) phi_2 = Decimal(1 - sqrt) / Decimal(2) for i in range(2, n): temp_out = ((phi_1 ** Decimal(i)) - (phi_2 ** Decimal(i))) * ( Decimal(sqrt) ** Decimal(-1) ) seq_out.append(int(temp_out)) return seq_out if __name__ == "__main__": num = 20 # print(f'{fib_recursive(num)}\n') # print(f'{fib_iterative(num)}\n') # print(f'{fib_formula(num)}\n') fib_iterative(num) fib_formula(num)