# What's wrong with my Fibonacci sequence generator?

I'm trying to solve Problem #25 on Project Euler. Here's what I've got so far:

def fibonacci(length):
fibs = [0,1]
while length > len(fibs):
fibs.append(fibs[-1] + fibs[-2])
return fibs

fibs = fibonacci(5000)

for i in fibs:
if len(str(i)) > 1000:
print i

## The location of the number in the Fibonacci set.
print [j for j, x in enumerate(fibs) if x == i]


Every number I've tested for (including some large ones) comes out with a match, but Project Euler isn't accepting the answer I'm getting.

I read that the answer is the 4782th number, but I'm getting that the first number with over 1000 digits is the 4787th,

11867216745258291596767088485966669273798582100095758927648586619975930687764095025968215177396570693265703962438125699711941059562545194266075961811883693134762216371218311196004424123489176045121333888565534924242378605373120526670329845322631737678903926970677861161240351447136066048164999599442542656514905088616976279305745609791746515632977790194938965236778055329967326038544356209745856855159058933476416258769264398373862584107011986781891656652294354303384242672408623790331963965457196174228574314820977014549061641307451101774166736940218594168337251710513138183086237827524393177246011800953414994670315197696419455768988692973700193372678236023166645886460311356376355559165284374295661676047742503016358708348137445254264644759334748027290043966390891843744407845769620260120918661264249498568399416752809338209739872047617689422485537053988895817801983866648336679027270843804302586168051835624516823216354234081479331553304809262608491851078404280454207286577699580222132259241827433


and Project Euler is saying every answer I've tried is wrong. (Obviously I didn't try 4782 yet, as that would be cheating.)

I'm tantalizingly close, and clearly something is going wrong, but what?

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You should go back and read the question again. I suspect you are only missing something very subtle about the question asked. –  Carl Groner Apr 16 at 1:03
I think it's faster to get the length of the number using math.floor(math.log10(n))+1 –  Marc Laugharn Apr 16 at 1:10

You are checking len(str(i)) > 1000, when according to the problem statement you should be checking len(str(i)) == 1000.

Additionally, you misinterpreted the number in the answer you've linked as a fibonacci number. Actually, if you read carefully, it's the number of times the fib function is called. Your fibonacci number 4782 is correct.

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according to the projecteuler forum for solvers of 25th problem, you're correct.

and the second big number which starts with 1322... is not a fibonacci number.

some function to check whether x is a fibonacci number:

   import decimal
def check_fib(n):
a, b = decimal.Decimal(5*(n**2) + 4), decimal.Decimal(5*(n**2) - 4)
return any(int(x.sqrt())==x for x in (a, b))

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His algorithm is getting 4787, not 4782 which is correct. –  John Apr 16 at 1:01
@johnthexiii the problem asks for the first number to contain 1000 digits, and his 4782nd number is 1000 digits long. –  thkang Apr 16 at 1:03

As thkang pointed out that guys number is wrong, See wims comment. Your algorithm works.

def fibonacci(length):
fibs = [0,1]
while length > len(fibs):
fibs.append(fibs[-1] + fibs[-2])
return fibs

fibs = fibonacci(5000)
for i,n in enumerate(fibs):

if len(str(n)) >= 1000:
print i
print n
break


Here is what I used to solve it and I get the same answers that you do.

def fib():
x, y = 0, 1
while True:
yield x
x += y
x, y = y, x
f = fib()
for i,n in enumerate(f):
if len(str(n)) >= 1000:
print i
print n
break

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The other number is not wrong - he never claimed it was a fibonacci number. What was wrong was the OP's interpretation of the number. –  wim Apr 16 at 1:21

In addition to the question (and problem), you can use the Generating Functionology Fibonnaci Function to get the fibonnaci numbers in a direct way.

from decimal import Decimal
from math import sqrt

#sqrt_5 = Decimal(sqrt(5))
sqrt_5 = decimal.Decimal(5).sqrt() # As thkang suggested!
fib = lambda n: (1/sqrt_5)*( (2/(-1+ sqrt_5))**(n+1) - (2/(-1-sqrt_5))**(n+1))

for i in xrange(10000):
if fib(i).adjusted()+1 == 1000:
print i+1


4782 is the first with 1000 digits for my code.

The output: [4782, 4783, 4784, 4785 4786].

About fibonnaci formula using Generating Functions http://www.math.ufl.edu/~joelar/generatingfibonacci.pdf

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decimal.Decimal(5).sqrt() would be more accurate –  thkang Apr 16 at 1:54

You can get to the solution without any programming.

We know, that a number m uses at least k digits in decimal representation if log_10(m)>=k-1.

So basically all we have to do is to solve the inequality:

log_10(F_n)>=999

Using the explicit form of F_n, you know it is the closest integer to ((1+Sqrt(5))/2)^n/Sqrt(5). We can use this approximation for F_n. Keep in mind there is a small error in this, but we will handle it later.

So the inequality becomes:

log_10(((1+Sqrt(5))/2)^n/Sqrt(5))>=999

After using some logarithmic identities and some ordering it looks like:

n>=(999+log_10(Sqrt(5)))/log_10((1+Sqrt(5))/2)~=4781.8592

So our final answer should be somewhere around this, let's discuss the error I've mentioned earlier. The approximation error is ((1-Sqrt(5))/2)^n/Sqrt(5). (1-Sqrt(5))/2~=-0.68, its absolute value is smaller than 1, so after exponentiation, it gets closer and closer to 0. (-0.68)^4781 is a very small number, so the difference between the logarithm of F_n and its approximation we used (those are numbers around 1000) is even smaller. Without calculating it exactly, considering the magnitude of F_n this difference can be completely neglected. Thus, the solution is the smallest integer n, for which n>=4781.8592, that is 4782.

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This generator gives integer numbers and I have tested it up to fib(21)

from decimal import Decimal
from math import sqrt

while True:
#sqrt_5 = Decimal(sqrt(5))
sqrt_5 = Decimal(5).sqrt() # As thkang suggested!
fib = lambda n: (1/sqrt_5)*( (2/(-1+ sqrt_5))**(n) - (2/(-1-sqrt_5))**(n))
a=input()
if a=="x":
break
d=round(fib(int(a)))

print("\t"+str(d))


To quit the program, just type x

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