# Collatz Conjecture in Python 3.3 [closed]

I got an assignment to make a program in Python 3.3 that will take any natural number under 100,000 that is input by the user of the program and prove that it works with the Collatz Conjecture by showing every number in the sequence. The problem is that our professor is dumb and refuses to teach us how to do anything. I was hoping I could get some tips on how I could make this program?

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## closed as not a real question by dawg, the wolf, bensiu, David Cesarino, AnthonApr 3 '13 at 3:23

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What have you tried so far? –  eandersson Apr 2 '13 at 17:53
The user makes a input of a natural number between 0 and 100,000, then the funktion returns the collatz conjecture of the this number? –  T.C. Apr 2 '13 at 17:54
So what is the problem? You don't know how to implement a function? You don't know how to make a loop? You don't know anything about Python? It really is an easy homework, I don't think your professor is as dumb as you think, more like someone else is. ;) –  freakish Apr 2 '13 at 17:56
Sometimes the professor doesn't have time in class to hold everyone's hand and walk them through all of the steps. But usually the professor is more than willing to help during office hours. Have you tried that? If the professor is really just mean and won't help, go to another professor's office hours, or ask for peer tutoring if your school provides that. –  mbeckish Apr 2 '13 at 18:44

So, look at the Wikipedia entry for the Collatz conjecture, specifically, the pseudocode to caclulate:

``````function hailstone(n)
while n > 1
show n
if n is odd then
set n = 3n + 1
else
set n = n / 2
endif
endwhile
show n
``````

That is almost trivial to translate directly into Python:

``````# Python code to do the same:
def hailstone(x):
def isodd(x):
return (x%2)==1 or x==0

count=0
n=int(x)
while n>1:
print ('   n=',n)
if isodd(n):
n = 3*n+1
else:
n = n/2
count+=1

print ('It took {} iterations to show that {} converges to 1'.format(count,x) )

hailstone(100000)
``````

Since everyone here essentially did your homework, maybe you can take your newfound knowlege and solve this problem at Project Euler.

Hint: use the count in `hailstone`, a loop between 1 and 1000000 and a dictionary or a list...

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So wordy! Just use `while n>1:n=(n/2,n*3+1)[int(n%2)];print(n)` –  the wolf Apr 2 '13 at 21:47

Here is a possible solution:

``````def collatz(n):
l = [n]
while n > 1:
if n%2 == 0:
n = n / 2
l.append(n)
else:
n = 3 * n + 1
l.append(n)
return l
x = raw_input('Insert a natural number between 0 and 100,000: ')
collatz(int(x))
``````
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`x` is a string. `collatz()` with a string will raise an error. –  Rushy Panchal Apr 2 '13 at 18:07
Yes i changed it above. –  T.C. Apr 2 '13 at 18:11
`raw_input` is not defined in Python 3, which the OP is using. Try `x = int(input("Enter natural number < 100,000: "))` instead. –  MattDMo Apr 2 '13 at 20:24

Recursive solution:

``````def collatz(n):
if n == 1: return True
elif n%2 == 0: return collatz(float(n)/2)
else: return collatz((3*n) + 1)
``````

This assumes that the conjecture is always true. If the `n` never hits 1, you're screwed (you'll hit the maximum recursion depth).

Iterative solution:

``````def collatz(n):
while n != 1:
if n%2 == 0: n = float(n)/2
else: n = (3*n) + 1
return True
``````

It will get stuck in an infinite loop if `n` doesn't hit 1.

To call it:

``````n = int(raw_input("Number: "))
print collatz(n)
``````
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F3AR3DLEGEND, For some reason when I type in that code, python doesn't do anything. –  Town Idiot25 Apr 2 '13 at 18:03
Or you're screwed because it needs more then [maximum recursion depth] steps to reach `1`. –  freakish Apr 2 '13 at 18:04
@TownIdiot25 It defines a function, it doesn't do anything by itself. You have to call the function. Maybe you should learn how to code in Python (such as what functions are) prior to asking a question. –  Rushy Panchal Apr 2 '13 at 18:04
@freakish Hence I added the iterative solution. –  Rushy Panchal Apr 2 '13 at 18:05
And your iterative function returns only True and not the collatz conjecture of the natural number –  T.C. Apr 2 '13 at 18:20