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Here's a Python implementation of insertion sort, I tried to follow the values on paper but once the counting variable i gets bigger than len(s) I don't know what to do, how/why does it still run?

def sort_numbers(s):
    for i in range(1, len(s)):
        val = s[i]
        j = i - 1
        while (j >= 0) and (s[j] > val):
            s[j+1] = s[j]
            j = j - 1
        s[j+1] = val

def main():
    x = eval(input("Enter numbers to be sorted: "))
    x = list(x)
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You seem to have the exact same code as en.wikipedia.org/wiki/Insertion_sort, is it not working for you or are you curious why it works? –  Nathan Villaescusa Oct 6 '12 at 0:23
It's working for me but I don't understand how it works, because when I follow the values on paper it doesn't get the numbers in order in less than len(s) tries. –  CT Hildreth Oct 6 '12 at 0:39
Does this animation help en.wikipedia.org/wiki/File:Insertion-sort-example-300px.gif –  Nathan Villaescusa Oct 6 '12 at 0:43
It helps in that I didn't know how it worked until I watched that GIF, but I still can't follow that Python code, because if you're sorting 3 numbers it seems like the for loop would have to do it in 3 iterations, and from what I can tell it takes more than 3 iterations. –  CT Hildreth Oct 6 '12 at 0:49
x = eval(input(...)) ARGH!!! Don't use eval! It is evil! Really: forget it! It shouldn't be taught to beginners. If you want to parse 1, 2, 3, 4 as a tuple and then convert it into a list use ast.literal_eval: import ast #at the beginning of the file [...] x = list(ast.literal_eval(input("Enter numbers to be sorted:"))). –  Bakuriu Jul 9 '13 at 10:08

5 Answers 5

Consider [3, 2, 1]

The loop starts with 3. Since it is the first item in the list there is nothing else to do.

[3, 2, 1]

The next item is 2. It compares 2 to 3 and since 2 is less than 3 it swaps them, first putting 3 in the second position and then placing 2 in the first position.

[2, 3, 1]

The last item is 1. Since 1 is less than 3 it moves 3 over.

[2, 3, 3]

Since 1 is less than 2 it swaps moves 2 over.

[2, 2, 3]

Then it inserts 1 at the beginning.

[1, 2, 3]
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If we consider an array from left to right [LeftMost, ..., RightMost], an insertion sort performs the following procedure for each item:

  1. Get the current value i.
  2. Get the value j (where j = i-1 in the first iteration, or basically the first element to the left of i). In the first iteration of the while array[i] and array[j] are to consecutive elements. For example, if array = [... 60, 100, 50, ...], and array[i] is 50, then array[j] is 100.
  3. If the previous value is greater than the current one, then it swaps the two values. Basically if you had something like [..., 60, 100, 50, ...] before this operation takes place, you will end up with [..., 60, 50, 100, ...]. The idea is that you move each item i left as long as there are elements to the left of it that are lower.

    This is the key of the sort algorithm. Once you are done processing at item i, you have a sorted array from where it originally was all the way to the beggining (left most).

  4. Decrease the value of j by one. and go back to step 1 (In this example, this will lead you to compare 50 and 60 and swap them).
If you take a look at the code carefully, you never get a the point where i >= len(s) (range is a function that creates a list, and the value i is not changed inside the loop). You can think of the variable i as an imaginary arrow, pointing to a position in the array that has all sorted elements to its left. The variable j simply moves to the left with i fixed, to swap the original array[i] value until it finds another value that is equal or lower than it.

Sidenote (not important to understand the algorithm, but could be useful): With that in mind, you can deduce that this algorithm's complexity (measured in worst case comparisons) is O(N^2) where N = len(s). It is similar to having two nested for statements.

This video does a great job explaining the above, and you know what they say, an image is worth 1000 words.

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The python range(start, end) function starts counting from start to end - 1. That is, end will never be part of the range() values. So if you have, for example, range(len(A)), and A is an array (in Python, a list) of 10 integers, len(A) will be 10, and range(len(A)) will return (0,1,2,3,4,5,6,7,8,9) so you can index every element in A.

In your case, i never gets bigger than len(s) - 1.

Following your code on paper can be useful, but you have to make sure that the programming language does exactly what you think it does, and sometimes the implementation isn't intuitive. A fast and simple way of tracing your program values is to use print statements. For example:

def sort_numbers(s):
    for i in range(1, len(s)):

        # let's see what values i takes on
        print "i = ", i

        val = s[i]
        j = i - 1
        while (j >= 0) and (s[j] > val):
            s[j+1] = s[j]
            j = j - 1
        s[j+1] = val
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To see how that implementation works, check it out visualized here: http://goo.gl/piDCnm

However, here is a less confusing implementation of insertion sort:

def insertion_sort(seq):
    for i in range(1, len(seq)):
        j = i
        while j > 0 and seq[j - 1] > seq[j]:
            seq[j - 1], seq[j] = seq[j], seq[j - 1]
            j -= 1
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Here is a small code for the insertion sort algorithm

def insertion_sort(a):
     if len(a) <= 1: return a
     key = 2
     while key < len(a):
        _key = key  
        while a[_key] < a[_key-1] and _key > 0:
            tmp = a[_key]
            a[_key] = a[_key-1]
            a[_key-1] = tmp
            _key -= 1
        key += 1
     return a

a = [3, 5, 2, 1, 2]
print insertion_sort(a)
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