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The Question

The greatest common divisor (GCD) of a and b is the largest number that divides both of them with no remainder.

One way to find the GCD of two numbers is Euclid’s algorithm, which is based on the observation that if r is the remainder when a is divided by b, then gcd(a, b) = gcd(b, r). As a base case, we can use gcd(a, 0) = a.

Write a function called gcd that takes parameters a and b and returns their greatest common divisor.

This in my opinion, may be useful, so I just wanted to put an answer in case anyone needs it.

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3  
Why the downvote? SO is trying to encourage people to answer their own questions. To be fair though Luke, perhaps you should phrase the question as such - you've phrased it more as a uni assignment. –  Josh Smeaton Jun 24 '12 at 5:38
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8 Answers

It's in the standard library.

>>> from fractions import gcd
>>> gcd(20,8)
4

Source from the inspect module:

>>> print inspect.getsource(gcd)
def gcd(a, b):
    """Calculate the Greatest Common Divisor of a and b.

    Unless b==0, the result will have the same sign as b (so that when
    b is divided by it, the result comes out positive).
    """
    while b:
        a, b = b, a%b
    return a
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3  
Wow, I never knew that. I should of guessed that a rational bignum library would have to include it anyway. –  Antimony Jun 24 '12 at 5:30
13  
Python...batteries included. –  martineau Jun 24 '12 at 10:39
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The algorithms with m-n can runs awfully long.

This one performs much better:

def gcd(x, y):
    while y != 0:
        (x, y) = (y, x % y)
    return x
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3  
This is the one in the standard library as well. –  Bolt64 Apr 7 at 15:21
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This code calculates the gcd of more than two numbers depending on the choice given by # the user, here user gives the number

numbers = [];
count = input ("HOW MANY NUMBERS YOU WANT TO CALCULATE GCD?\n")
for i in range(0, count):
  number = input("ENTER THE NUMBER : \n")
  numbers.append(number)
numbers_sorted = sorted(numbers)
print  'NUMBERS SORTED IN INCREASING ORDER\n',numbers_sorted
gcd = numbers_sorted[0]

for i in range(1, count):
  divisor = gcd
  dividend = numbers_sorted[i]
  remainder = dividend % divisor
  if remainder == 0 :
  gcd = divisor
  else :
    while not remainder == 0 :
      dividend_one = divisor
      divisor_one = remainder
      remainder = dividend_one % divisor_one
      gcd = divisor_one

print 'GCD OF ' ,count,'NUMBERS IS \n', gcd
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Welcome to Stack Overflow! Would you consider adding some narrative to explain why this code works, and what makes it an answer to the question? This would be very helpful to the person asking the question, and anyone else who comes along. –  Andrew Barber Jun 11 '13 at 11:41
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a=int(raw_input('1st no \n'))
b=int(raw_input('2nd no \n'))

def gcd(m,n):
    z=abs(m-n)
    if (m-n)==0:
        return n
    else:
        return gcd(z,min(m,n))


print gcd(a,b)

A different approach based on euclid's algorithm.

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def gcd(m,n):
    return n if (m-n) == 0 else gcd(abs(m-n), min(m, n))
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Never use 'is' when you mean to compare for equality. The small integers cache is a CPython implementation detail. –  Marius Gedminas Jul 10 '13 at 10:23
    
Thanks, I did not know it would not work in all Python implementations. –  dansalmo Jul 10 '13 at 15:02
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def gcdRecur(a, b):
    '''
    a, b: positive integers

    returns: a positive integer, the greatest common divisor of a & b.
    '''
    # Base case is when b = 0
    if b == 0:
        return a

    # Recursive case
    return gcdRecur(b, a % b)
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the value swapping didn't work well for me. So I just set up a mirror-like situation for numbers that are entered in either a < b OR a > b:

def gcd(a, b):
if a > b:
    r = a % b
    if r == 0:
        return b
    else:
        return gcd(b, r)
if a < b:
    r = b % a
    if r == 0:
        return a
    else:
        return gcd(a, r)

print gcd(18, 2)
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1  
This is not even valid Python syntax. Indentation is important. –  Marius Gedminas Jul 10 '13 at 10:23
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Here is the code:

def gcd(a, b):
    if a > b:
        r = a%b
        if r == 0:
            return b
        else:
            return gcd(b, r)
    if a < b:
        a = b
        b = a
        return gcd(a, b)
print gcd(20, 8)
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after a = b \\ b = a you will have a == b. You should do the value swapping like this a, b = b, a –  astynax Jun 24 '12 at 6:42
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