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OK, our professor explained (kinda) this problem, but it still doesn't make much sense.

Question: Implement the function knice(f,a,b,k) that will return 1 if for some integer a <= x <= b and some integer n <= k, n applications of f on x will be x, (e.g. f(f(f...(f(x)))) = x) and 0 if not.

What the professor provided was:

def knice(f,a,b,k):
    f(f(f(...(f(x)))) = x
    for i = a to b:
        y = f(i)
        if y = i break
    for j = z to k:
        y = f(y)
        if y = i break

Personally, that example makes no sense to me, so looking to see if I can get clarification.

OP EDIT 1/19/2012 3:03pm CST

This is the final function that was figured out with the help of the GTA:

def f(x):
    return 2*x-3

def knice(f,a,b,k):
x = a
while x <= b:
    n = 1
    y = f(x)
    if y == x:
        return 1
    while n <= k:
        y = f(y)
        if y == x:
            return 1
return 0
share|improve this question
I think the indenting is a bit off, the second for loop should probably be inside the first. Also, what is z? Finally, there is no return at all from this function. Is this example just a starting point or is it intended to be a working function? – Greg Hewgill Jan 18 '12 at 22:46
That is the problem. The professor didn't specify what any of the example meant and he explained this to a class of 40 because NO ONE knew what to do. I honestly couldn't tell if it was a z or 2! – seiryuu10 Jan 18 '12 at 22:48
Ok, consider it a non-working starting point then. With some rearrangement and minor tweaks, you can make that function work. – Greg Hewgill Jan 18 '12 at 22:49
@seiryuu10: Clearly the professor is wrong if you can't even make sense of it, let alone get it to work as is. I do think that z should be a 2 though. – Platinum Azure Jan 18 '12 at 22:59
I could just be a case of "here's some pseudo-code of what I want you to do". – tobier Jan 18 '12 at 23:01
up vote 5 down vote accepted

Ignore his code; you should write whatever you feel comfortable with and work out the kinks later.

You want to work out whether

  • f(a) = a, or f(f(a)) = a, or ..., or f^n(a) = a, or,
  • f(a+1) = a+1, or f(f(a+1)) = a+1, or ..., or f^n(a+1) = a+1, or,
  • ...
  • f(b) = b, or f(f(b)) = b, or ..., or f^n(b) = b.

An obvious algorithm should come to mind immediately: try all these values one-by-one! You will need two (nested) loops, because you are iterating over a rectangle of values. Can you now see what to do?

share|improve this answer
I do see it actually, but it is trying to code it that I am having the issues with. I had no formal or otherwise experience with Python and it was a "here you go, turn it in on the due date" thing. – seiryuu10 Jan 19 '12 at 17:11

Yeah, I can see why that might be confusing.

Was f(f(f(...(f(x)))) = x wrapped in triple-double-quotes? That's a function documentation string, sort of like commenting your code. It shouldn't have been stand-alone without something protecting it.

Imagine f was called increment_by_one.

Calling increment_by_one 10 times like that on an x of 2 would give 12. No matter how many times you increment, you never seem to get back 2.

Now imagine f was called multiply_by_one.

Calling multiply_by_one 5 times like that on an x of 3 would give 3. Sweet.

So, some example outputs you can test against (you have to write the functions)

knice(increment_by_one, 1, 3, 5) would return 0.

knice(multiply_by_one, 1, 3, 5) would return 1.

As another hint, indentation is important in python.

share|improve this answer
You really cleared this up. That prof's code makes almost no sense at all. – Droogans Jan 18 '12 at 23:45
@Droogans: It is supposed to be close (in structure) to the final answer. The syntax isn't actually python, the "variables" in the code are placeholders for you to fill in, etc. If you do figure out the answer, though, you might find more similarities than differences in the professor's code (that's what Greg's second comment was about). The trick was understanding the complex goals of the function in the first place. If you've got a handle on that, good luck. – ccoakley Jan 19 '12 at 0:08
sorry to press the issue, but seeing another prof treat freshman this way makes me wonder if they gets their bonus measured against making them flunk out of the CS program. If I were at the lecture, I might have a different opinion about the 'example' posted here. :) – Droogans Jan 19 '12 at 3:07
I'll press the devil's/profesor's advocate position: I don't think the prof is actively seeking to harm freshman-level understanding of the problem. Once you learn to program, it impacts how you think about such problems (and the examples you provide). Sure, it could be that your professor is out of touch with freshman-level thinking. But it could be that there are many ways to introduce the problem and your professor used one that didn't work for you. I'd hope that if you went to office hours, the prof would try a different approach, perhaps multiple approaches, until he saw it "click". – ccoakley Jan 19 '12 at 3:37

Here's a concrete example. Start small, and suppose you called knice(f, a=1, b=2, k=1). For k==1, we don't have to worry about iterating the function. The only values of x to consider are 1 and 2, so knice can return 1 (i.e., True) if f(1)==1 or f(2)==2.

Now suppose you called knice(f, a=1, b=2, k=2). You'll have to check f(f(1)) and f(f(2)) as well.

As k gets bigger, you'll have to call f more. And as the range between a and b gets bigger, you'll have to try more values of x as an argument to f.

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