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I'm taking this online Python course and trying to solve the following problem called Coding Exercise: It's Natural:

Write a function naturalNumbers which takes a positive integer n as input, and returns a list [1, 2, ...] consisting of the first n natural numbers.

Do I even need a for loop to create a list? Here's my code (which doesn't work obviously). Keep in mind, they have not taught list comprehension. I found this concept on stackoverflow.

def naturalNumbers(n):
   list = [n+1 for i in n]
   return list

Should I take another approach where I create multiple lists of 1,2,3...n and concatenate them all together like [1] + [2] + [3]....

  • Your online Python course is strange. Basically asking you to reinvent the wheel (range function) – Shashank Sep 11 '13 at 22:18
  • In fact, you can hardly do this with a list. Your example will give an error because there isn't anything to loop through in n since n "is not iterable" – askewchan Sep 11 '13 at 22:19
  • S Gupta - That's exactly what I thought. – StacyM Sep 11 '13 at 22:24
  • It's sometimes useful to try to figure out how to implement built-in functions, so you understand what they're doing, and see the benefits of using them (a for loop over a range is so much nicer than a while loop with an explicit counter), and so on. I wrote my own itertools.groupby for similar reasons. But once you understand things, just use the standard batteries in your real code and all future learning, of course. – abarnert Sep 11 '13 at 22:42
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Do I even need a for loop to create a list?

No, you can (and in general circumstances should) use the built-in function range():

>>> range(1,5)
[1, 2, 3, 4]

i.e.

def naturalNumbers(n):
    return range(1, n + 1)

Python 3's range() is slightly different in that it returns a range object and not a list, so if you're using 3.x wrap it all in list(): list(range(1, n + 1)).

  • The class compiler errors out and says that it needs type of list not range. I understand what you mean though. Range would be much easier. – StacyM Sep 11 '13 at 22:19
  • @StacyM Refer to the last sentence of the answer. – arshajii Sep 11 '13 at 22:20
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    @StacyM They use range in the examples on the page you linked to. – interjay Sep 11 '13 at 22:20
  • Got it thanks! Enjoy the points. I also thought range was just for for loops (for in range (0,n)). I didn't know you could use it as a method. Thanks! – StacyM Sep 11 '13 at 22:21
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    3.x range doesn't return a generator, it returns a range object, which is very different. It doesn't keep any internal state, you can index it (e.g., range(5)[3]), etc. In fact, it acts a lot more like a list than like a generator. But without wasting the memory of a list. – abarnert Sep 11 '13 at 22:27
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Here are a few ways to create a list with N of continuous natural numbers starting from 1.

1 range:

def numbers(n): 
    return range(1, n+1);

2 List Comprehensions:

def numbers(n):
    return [i for i in range(1, n+1)]

You may want to look into the method xrange and the concepts of generators, those are fun in python. Good luck with your Learning!

  • The list comprehension doesn't do anything useful here. [i for i in foo] is always the same thing as list(foo), just slower, less readable, and more verbose. And if you're using Python 2.x (which you presumably are, since you mentioned xrange), you already have a list, so [i for i in foo] and list(foo) are both unnecessary. – abarnert Sep 11 '13 at 23:14
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There are two problems with your attempt.

First, you've used n+1 instead of i+1, so you're going to return something like [5, 5, 5, 5] instead of [1, 2, 3, 4].

Second, you can't for-loop over a number like n, you need to loop over some kind of sequence, like range(n).

So:

def naturalNumbers(n):
    return [i+1 for i in range(n)]

But if you already have the range function, you don't need this at all; you can just return range(1, n+1), as arshaji showed.

So, how would you build this yourself? You don't have a sequence to loop over, so instead of for, you have to build it yourself with while:

def naturalNumbers(n):
    results = []
    i = 1
    while i <= n:
        results.append(i)
        i += 1
    return results

Of course in real-life code, you should always use for with a range, instead of doing things manually. In fact, even for this exercise, it might be better to write your own range function first, just to use it for naturalNumbers. (It's already pretty close.)


There is one more option, if you want to get clever.

If you have a list, you can slice it. For example, the first 5 elements of my_list are my_list[:5]. So, if you had an infinitely-long list starting with 1, that would be easy. Unfortunately, you can't have an infinitely-long list… but you can have an iterator that simulates one very easily, either by using count or by writing your own 2-liner equivalent. And, while you can't slice an iterator, you can do the equivalent with islice. So:

from itertools import count, islice
def naturalNumbers(n):
    return list(islice(count(1), n)))
  • So, the instructor just replied with a comment saying that range was not the intended solution. Instead I was supposed to concatenate. Any ideas on how this would be done? This seems like "reinventing the wheel" and inefficient! – StacyM Sep 11 '13 at 23:17
  • @StacyM: It's certainly an inefficient way to write real-life code. But for learning purposes, it can be an efficient way to learn something. For example, he may be trying to show you what the verbose and error-prone while version looks like, so tomorrow he can show you the better for version and you'll understand it. (And, in the future, if you ever find yourself writing a while loop that checks and increments i, you'll immediately know there's a better way.) – abarnert Sep 11 '13 at 23:23
  • @StacyM: At any rate, I think what he wants is my ugly while loop version. I have no idea why he said "concatenate", because usually that means extend or + instead of append, and I doubt he actually wants you to write results.extend([i]) instead of results.append(i); probably he just misspoke. – abarnert Sep 11 '13 at 23:24
  • @StacyM: If you want to be clever/annoying, you might want to turn in an itertools version first. He'll tell you that wasn't his intended answer either, but it might be worth it to see whether he doesn't get it (in which case you've got the wrong instructor) or whether he just doesn't want you getting ahead of yourself… – abarnert Sep 11 '13 at 23:27
  • for the return list(islice(count(1), n))) seems you have an extra ) – Shane Jun 23 '15 at 21:50

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