# python-find out the number with equal 1's in it's binary representation as that in the input number

I'm new in python programming. just got stuck with this one problem. I have to take a natural number n as input and output will be a natural number m such that m>n and number of 1's in m's binary representation = number of 1's in n's binary representation.(sample input:23, output:27) here's what i wrote. I'm having trouble with the while loop.

``````n=int(input('input number:'))
x=''
for i in range(1,n+1):
x=str(n%2)+x
n>>=1

List=[]

for i in x:
List.append(i)
n_count=List.count('1')
m=n+1
y=''
while m>n:
for i in range(1,m+1):
y=str(m%2)+y
m>>=1

List2=[]
for i in y:
List2.append(i)
m_count=List2.count('1')

if m_count==n_count:
print (m)
break

m=m+1
``````
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Rather than rolling your own, you can just use `bin()` to get the binary representation of an integer. –  Joel Cornett Aug 13 '12 at 19:58
This would make a good code golf question. I've got it down to 7 lines and I'm convinced it could be much shorter. –  Mark Ransom Aug 13 '12 at 20:46

This sounds like homework, so I'll just give you a hint. You can use the `bin` function to get the binary representation of an integer, rather than doing all that bit twiddling. To get a number with the same number of ones, just add a zero anywhere but in the first place, and check out what the second argument to `int` does to get back a number.

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There's a variation of this answer that gives the smallest number with the same bit count that's greater than the input. –  Mark Ransom Aug 13 '12 at 20:12
Thanks. that helps :) –  user1546721 Aug 13 '12 at 20:25

This is really a problem with understanding binary numbers in general. Remember that multiplying a number by 2 doesn't change the number of 1s. So you can just do `n*2`.

You can verify it by doing

``````n=int(input('input number:'))
m= n*2

print 'm is', m
print "n's 1s", bin(n).count('1')
print "m's 1s", bin(m).count('1')
print "m > n", m > n
``````
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Although it's not mentioned, I'm betting that the OP is supposed to return the smallest such number. –  DSM Aug 13 '12 at 20:02
Oh well that makes things nontrivial. Though still fairly simple if you understand binary. –  Antimony Aug 13 '12 at 20:03

`m = n<<1`

the `<<` operator is a left binary shift. It moves everything in the binary representation to the left by one place and inserts a zero at the right end. this will double the value of the number, but note affect the number of `1`s because you're just moving the bits around.

some examples

``````0001 << 1 == 0010
0010 << 2 == 1000
0101 << 1 == 1010
1000 >> 1 == 0100
``````

This operation is faster than multiplication, and can be used to replace it when multiplying by a power of two.

``````>>> 5*2 == 5 << 1
True
>>> 10*4 == 10 << 2
True
>>> 3*8 == 3 << 3
True
``````

Think of it this way. If I asked you "what's 868554 * 6 ?" you'd have to do some thinking. But if I said "what's 456103284 * 10 ?" you'd just add a 0 to the right end. Computers can do a similar thing, but with *2 instead of *10

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Since `bin()` returns a string representing the binary value and `count()` returns the number of times a substring appears in a string, you can loop until you find a number. Since this looks like homework, here's a general idea:

``````while m > n: # this may as well say "while True:", so maybe think of a better condition.
m += 1
if bin(m).count('1') == bin(n).count('1'): # if you find a better condition you won't need an if statement.
break
``````
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