# How to write the Fibonacci Sequence in Python

I had originally coded the program wrongly. Instead of returning the Fibonacci numbers between a range (ie. startNumber 1, endNumber 20 should = only those numbers between 1 & 20), I have written for the program to display all Fibonacci numbers between a range (ie. startNumber 1, endNumber 20 displays = First 20 Fibonacci numbers). I thought I had a sure-fire code. I also do not see why this is happening.

``````startNumber = int(raw_input("Enter the start number here "))
endNumber = int(raw_input("Enter the end number here "))

def fib(n):
if n < 2:
return n
return fib(n-2) + fib(n-1)

print map(fib, range(startNumber, endNumber))
``````

Someone pointed out in my Part II (which was closed for being a duplicate - http://stackoverflow.com/questions/504193/how-to-write-the-fibonacci-sequence-in-python-part-ii) that I need to pass the startNumber and endNumber through a generator using a while loop. Can someone please point me in the direction on how to do this? Any help is welcome.

I'm a learning programmer and I've run into a bit of a jumble. I am asked to write a program that will compute and display Fibonacci's Sequence by a user inputted start number and end number (ie. startNumber = 20 endNumber = 100 and it will display only the numbers between that range). The trick is to use it inclusively (which I do not know how to do in Python? - I'm assuming this means to use an inclusive range?).

What I have so far is no actual coding but rather:

• Write Fib sequence formula to infinite
• Display startNumber to endNumber only from Fib sequence.

I have no idea where to start and I am asking for ideas or insight into how to write this. I also have tried to write the Fib sequence forumla but I get lost on that as well.

Thank you for the help. I will be participating actively in this question and will appreciate ANY help.

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Two things: (most) people here don't mind homework, but mark it as such. And try first. Always! You'll learn jack sh*t if someone does the work for you. Do it yourself and then we can help you out, even if what you've done is rubbish. –  paxdiablo Jan 30 '09 at 6:08
SD, post your code so far. –  hop Jan 31 '09 at 17:10
Updated! Check it out ;) –  SD. Feb 2 '09 at 23:13
–  J.F. Sebastian Jan 10 at 15:02

There are lots of information about the Fibonacci Sequence on wikipedia and on wolfram. A lot more than you may need. Anyway it is a good thing to learn how to use these resource to find (quickly if possible) what you need.

## Write Fib sequence formula to infinite

In math it's given in a recursive form:

In programming infinite doesn't exists. You can use a recursive form translating the math form directly in your language, for example in python it becomes:

``````def F(n):
if n == 0: return 0
elif n == 1: return 1
else: return F(n-1)+F(n-2)
``````

Try it in your favourite language and see this form requires a lot of time as n gets bigger, in fact this is O(2n) in time.

Go on on the sites I linked to you and will see this (on wolfram):

This one is pretty easy to implement and very, very fast to compute, in Python:

``````def F(n):
return ((1+sqrt(5))**n-(1-sqrt(5))**n)/(2**n*sqrt(5))
``````

An other way to do it is following the definition (from wikipedia):

The first number of the sequence is 0, the second number is 1, and each subsequent number is equal to the sum of the previous two numbers of the sequence itself, yielding the sequence 0, 1, 1, 2, 3, 5, 8, etc.

If your language supports iterators you may do something like:

``````def F():
a,b = 0,1
yield a
yield b
while True:
a, b = b, a + b
yield b
``````

## Display startNumber to endNumber only from Fib sequence.

Once you know how to generate Fibonacci Numbers you just have to cycle trough the numbers and check if they verify the given conditions.

Suppose now you wrote a f(n) that returns the n-th term of the Fibonacci Sequence (like the one with sqrt(5) )

In most languages you can do something like:

``````def SubFib(startNumber, endNumber):
n = 0
cur = f(n)
while cur <= endNumber:
if startNumber <= cur:
print cur
n += 1
cur = f(n)
``````

In python I'd use the iterator form and go for:

``````def SubFib(startNumber, endNumber):
for cur in F():
if cur > endNumber: return
if cur >= startNumber:
yield cur

for i in SubFib(10, 200):
print i
``````

My hint is to learn to read what you need. Project Euler (google for it) will train you to do so :P Good luck and have fun!

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Thank you very much for the help! Thanks to you I figured it out! I also started another question regarding this assignment for me: stackoverflow.com/questions/504193/… Check it out if you have time. ;) –  SD. Feb 2 '09 at 18:09
I commented it :) –  Andrea Ambu Feb 2 '09 at 20:31
Thanks Andrea - I figured out that problem! I did not know about the differences of calling the [] in the range function. I also have a new problem I've ran into. Please look into it if you have the time. Thank you. –  SD. Feb 2 '09 at 23:07
It's up top. Under Updated. –  SD. Feb 3 '09 at 4:04
You need to use a while loop, not map. Try to figure it out on your own, then come back with the code if you can't do it. I'm not lazy (the code is shorter than this comment). I'm doing that for you, try it out with the "while" hint ;) If you have problem with that come back again ;) –  Andrea Ambu Feb 3 '09 at 11:56

The idea behind the Fibonacci sequence is shown in the following Python code:

``````def fib(n):
if n == 1:
return 1
elif n == 0:
return 0
else:
return fib(n-1) + fib(n-2)
``````

This means that fib is a function that can do one of three things. It defines fib(1) == 1, fib(0) == 0, and fib(n) to be:

fib(n-1) + fib(n-2)

Where n is an arbitrary integer. This means that fib(2) for example, expands out to the following arithmetic:

``````fib(2) = fib(1) + fib(0)
fib(1) = 1
fib(0) = 0
# Therefore by substitution:
fib(2) = 1 + 0
fib(2) = 1
``````

We can calculate fib(3) the same way with the arithmetic shown below:

``````fib(3) = fib(2) + fib(1)
fib(2) = fib(1) + fib(0)
fib(2) = 1
fib(1) = 1
fib(0) = 0
# Therefore by substitution:
fib(3) = 1 + 1 + 0
``````

The important thing to realize here is that fib(3) can't be calculated without calculating fib(2), which is calculated by knowing the definitions of fib(1) and fib(0). Having a function call itself like the fibonacci function does is called recursion, and it's an important topic in programming.

This sounds like a homework assignment so I'm not going to do the start/end part for you. Python is a wonderfully expressive language for this though, so this should make sense if you understand math, and will hopefully teach you about recursion. Good luck!

Edit: One potential criticism of my code is that it doesn't use the super-handy Python function yield, which makes the fib(n) function a lot shorter. My example is a little bit more generic though, since not a lot of languages outside Python actually have yield.

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This is not a homework problem but wow thank you for the answer! I understand what I need to do but starting it and implementing is what I am stuck on now (especially with implementing user input values). Can you provide some insight into this? I keep getting a <function fib at 0x0141FAF0> error. –  SD. Jan 30 '09 at 6:22
I understand that you're trying very hard to implement a program that may be beyond your current ability. Having me write more code will not help you. You should try to hack around with my code until it works, and read more Python tutorials. Whitespace may be a problem, but I don't know that error. –  James Thompson Jan 30 '09 at 6:39
I understand. Is there any other idea that you think I may be missing? I understand if you cannot help however. I thank you for your time. –  SD. Jan 30 '09 at 6:42
Your <function fib at 0x0141FAF0> error may be the result of saying "fib" (which refers to the function itself) instead of "fib()" which will call the function. Best of luck. –  Kiv Jan 30 '09 at 14:02
Bear in mind that this naive recursive method of calculating Fibonacci numbers can get into stack overflow (not the site) real fast. For practical purposes, generate iteratively or use some sort of memoization or something. –  David Thornley Jan 30 '09 at 15:33

You can get a good start point here:

You have enough material there, a recursive approach, an iterative approach, the Binet's formula and some techniques for computing large individual Fibonacci numbers...

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Thank you. I will look into this. –  SD. Jan 30 '09 at 6:17
``````def fib():
a,b = 1,1
num=eval(input("Please input what Fib number you want to be calculated: "))
num_int=int(num-2)
for i in range (num_int):
a,b=b,a+b
print(b)
``````
-

I think the most productive thing you can do will be to write some code. ANY code. If you can't get it to work, edit it into your original question along with the error you're getting, and we'll try to guide you toward getting that particular snippet of code to work. That should get you started.

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15 minutes into a tutorial I used when learning Python, it asked the reader to write a program that would calculate a Fibonacci sequence from 3 input numbers (first Fibonacci number, second number, and number at which to stop the sequence). The tutorial had only covered variables, if/thens, and loops up to that point. No functions yet. I came up with the following code:

``````sum = 0
endingnumber = 1

print "\n.:Fibonacci sequence:.\n"

firstnumber = input("Enter the first number: ")
secondnumber = input("Enter the second number: ")
endingnumber = input("Enter the number to stop at: ")

if secondnumber < firstnumber:

print "\nSecond number must be bigger than the first number!!!\n"

else:

while sum <= endingnumber:

print firstnumber

if secondnumber > endingnumber:

break

else:

print secondnumber
sum = firstnumber + secondnumber
firstnumber = sum
secondnumber = secondnumber + sum
``````

As you can see, it's really inefficient, but it DOES work.

-

Calculate the Fibonacci sequence from the beginning (presumably using a while loop), but don't output anything until the values are >= startNumber, and exit as soon as the values are greater than endNumber.

Actual code isn't provided because this smells like homework, but it sounds from your wording that bounding the output is the part that you were uncertain about.

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Ah. A while loop is exactly what I was looking for but I wouldn't know how to combine a while loop with the startNumber and endNumber. I'm actually not a student but I am doing this based off a mentor-merit. I'm trying to learn this language to help me get a job really. Thank you for the reply –  SD. Jan 30 '09 at 5:57

Start from reading good Python book. One of such book is "How to Think Like a Computer Scientist", especially chapter 5 in your case.

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Just got a .pdf version of it, thank you. –  SD. Jan 30 '09 at 6:07

this was asked in general take a look

here is the python implementation

this is the question

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Go find out how to convert a recursive problem into an iterative one. Should be able to calculate from there.

That's might be the principles that they're trying to get you to learn, especially if this is an Algorithms course.

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You must be joking or this is a homework problem? The Fibonacci function is discussed in the Python tutorial.

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This is not a joke, sorry. I do need assistance and asked for it. Sorry. –  SD. Jan 30 '09 at 6:06
I have looked through the python.org tutorial (and used the search function) and cannot find mention of the Fibonacci sequence. Care to point to it? I see examples uses fib() but nothing about Fibonacci's sequence. –  SD. Jan 30 '09 at 8:38
here is the definition of the fibonacci-sequence function: docs.python.org/tutorial/controlflow.html#defining-functions –  hop Jan 31 '09 at 17:12
+1 for mentioning the tutorial, even if it would have been nicer to include the link to it. –  Paul Wagland Feb 24 '10 at 23:36

use recursion:

``````def fib(n):
if n == 0:
return 0
elif n == 1:
return 1
else:
return fib(n-1) + fib(n-2)
x=input('which fibonnaci do you want?')
print fib(x)
``````
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1)fibona_cc_i, 2) this algorithm is very bad, 3) why do you answer this question? It is already answered. –  Harold Apr 28 '13 at 6:47

Just going through http://projecteuler.net/problem=2 this was my take on it

``````# Even Fibonacci numbers
# Problem 2

def get_fibonacci(size):
numbers = [1,2]
while size > len(numbers):
next_fibonacci = numbers[-1]+numbers[-2]
numbers.append(next_fibonacci)

print numbers

get_fibonacci(20)
``````
-
``````def fib(x, y, n):
if n < 1:
return x, y, n
else:
return fib(y, x + y, n - 1)

print fib(0, 1, 4)
(3, 5, 0)

#
def fib(x, y, n):
if n > 1:
for item in fib(y, x + y, n - 1):
yield item
yield x, y, n

f = fib(0, 1, 12)
f.next()
(89, 144, 1)
f.next()[0]
55
``````
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This was a practice assignment that I saw on Khan Academy's Sal on Python Programming: https://www.khanacademy.org/science/computer-science-subject/computer-science/v/exercise---write-a-fibonacci-function

He is probably not the first person to assign that as some work to do. But it is awesome figuring it out by yourself. I learned a lot figuring it out actually and it was a blast.

I recommend that you figure it out by yourself before you try and copy someone else's code for homework.

In the video above, Sal the instructor, shows shows the whole theory behind the Fibonacci number, and with that in mind you should be able to figure it out.

It took me about 10 minutes and this is the code I made (I am learning Python starting 3 days ago and this is my first programming language to learn). I would not have been able to write the code if it was not for the video from the tutorial before: https://www.khanacademy.org/science/computer-science-subject/computer-science/v/comparing-iterative-and-recursive-factorial-functions that one gives an example of Sal doing a recursive factorial equation and gives you the mind-set to solve this problem.

Here is my code:

``````def fibonacci(num):
if num <= 1:          #base case
return num
else:
return fibonacci(num-1) + fibonacci(num-2)
``````

You can see that if the number is 1 or 0 then you just return the number.

I find this cleaner than saying if number is 1 return 1 and if number is 0 return 0.

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These all look a bit more complicated than they need to be. My code is very simple and fast:

``````def fibonacci(x):

List = []
f = 1
List.append(f)
List.append(f) #because the fibonacci sequence has two 1's at first
while f<=x:
f = List[-1] + List[-2]   #says that f = the sum of the last two f's in the series
List.append(f)
else:
List.remove(List[-1])  #because the code lists the fibonacci number one past x. Not necessary, but defines the code better
for i in range(0, len(List)):
print List[i]  #prints it in series form instead of list form. Also not necessary
``````
-

Canonical Python code to print Fibonacci sequence:

``````a,b=1,1
while(True):
print a,
a,b=b,a+b       # Could also use b=a+b;a=b-a
``````

For the problem "Print the first Fibonacci number greater than 1000 digits long":

``````a,b=1,1
i=1
while(len(str(a))<=1000):
i=i+1
a,b=b,a+b

print i,len(str(a)),a
``````
-

Another way of doing it:

# map(lambda i: reduce(lambda x,y: a.append(x+y),a[-2:]),range(n-2))

Assigning list to 'a', assigning integer to 'n' Map and reduce are 2 of three most powerful functions in python. Here map is used just to iterate 'n-2' times. a[-2:] will get the last two elements of an array. a.append(x+y) will add the last two elements and will append to the array

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Why not just simply do the following?

``````x = [1,1]
for i in xrange(10):
x.append(x[-1] + x[-2])
print ', '.join(str(y) for y in x)
``````
-

May this Help

def fibo(n):

``````result = []

a, b = 0, 1

while b < n:
result.append(b)
a, b = b, b + a

return result
``````
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This code is quite incorrect. Please make sure to indent correctly so it can easily be replicated. –  aging_gorrila Mar 14 at 1:35

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