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New to Python and not sure why my fermat factorisation method is failing? I think it may have something to do with the way large numbers are being implemented but I don't know enough about the language to determine where I'm going wrong.

The code below works when n=p*q is made with p and q extremely close (as in within about 20 of each other) but seems to run forever if they are further apart. For example, with n=991*997 the code works correctly and executes in <1s, likewise for n=104729*104659. If I change it ton=103591*104659 however, it just runs forever (well, I let it go 2 hours then stopped it).

Any points in the right direction would be greatly appreciated!


import math

def isqrt(n):
  x = n
  y = (x + n // x) // 2
  while y < x:
    x = y
    y = (x + n // x) // 2
  return x


a=isqrt(n) + 1
b2=a*a - n

while b*b!=b2:


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1 Answer 1

up vote 1 down vote accepted

I looked up the algorithm on Wikipedia and this works for me:

#from math import ceil

def isqrt(n):
  x = n
  y = (x + n // x) // 2
  while y < x:
    x = y
    y = (x + n // x) // 2
  return x

def fermat(n, verbose=True):
    a = isqrt(n) # int(ceil(n**0.5))
    b2 = a*a - n
    b = isqrt(n) # int(b2**0.5)
    count = 0
    while b*b != b2:
        if verbose:
            print('Trying: a=%s b2=%s b=%s' % (a, b2, b))
        a = a + 1
        b2 = a*a - n
        b = isqrt(b2) # int(b2**0.5)
        count += 1
    assert n == p * q
    return p, q


I tried a couple test cases. This one is from the wikipedia page:

>>> fermat(5959)
Trying: a=78 b2=125 b=11
Trying: a=79 b2=282 b=16
a= 80
b= 21
p= 101
q= 59
pq= 5959
(101, 59)

This one is your sample case:

>>> fermat(103591*104729)
Trying: a=104159 b2=115442 b=339
a= 104160
b= 569
p= 104729
q= 103591
pq= 10848981839
(104729, 103591)

Looking at the lines labeled "Trying" shows that, in both cases, it converges quite quickly.

UPDATE: Your very long integer from the comments factors as follows:


fermat(n_long, verbose=False)
a= 17777324810733646969488445787976391269105128850805128551409042425916175469326288448917184096591563031034494377135896478412527365012246902424894591094668262
b= 157517855001095328119226302991766503492827415095855495279739107269808590287074235
p= 17777324810733646969488445787976391269105128850805128551409042425916175469483806303918279424710789334026260880628723893508382860291986009694703181381742497
q= 17777324810733646969488445787976391269105128850805128551409042425916175469168770593916088768472336728042727873643069063316671869732507795155086000807594027
pq= 316033277426326097045474758505704980910037958719395560565571239100878192955228495343184968305477308460190076404967552110644822298179716669689426595435572597197633507818204621591917460417859294285475630901332588545477552125047019022149746524843545923758425353103063134585375275638257720039414711534847429265419
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Thanks very much! This seems to work for small numbers but when I use something large I get "long int too large to convert to float" error. I think this is because of the n**0.5 statement? Do you have any way to make this work on larger numbers? For example, n=316033277426326097045474758505704980910037958719395560565571239100878192955228‌​495343184968305477308460190076404967552110644822298179716669689426595435572597197‌​633507818204621591917460417859294285475630901332588545477552125047019022149746524‌​843545923758425353103063134585375275638257720039414711534847429265419 –  user3081739 Dec 9 '13 at 7:34
@user3081739 That wasn't difficult: I used your isqrt algorithm and it handled your long number easily, although I did go out for a coffee break while it computed. –  John1024 Dec 9 '13 at 8:01
Thats perfect, thank you! Do you know why my code was failing? The only difference I can see between the two is the iterated calculation of b2.. you used b2 = a*a - n and I used b2 = b2 + 2*a + 1? –  user3081739 Dec 9 '13 at 8:37
@user3081739 I believe that you are right that was the only significant change. –  John1024 Dec 9 '13 at 8:41

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