5

I've been reading Eric Lippert's blog for a while now (it's excellent, you should check it out) and In the comments of one of his posts, he mentions that he had no intention indexing a sequence of numbers but rather only enumerate them.

What is the difference between enumeration and indexing, I've searched everywhere ? During my searches I've become even more confused when Iteration was brought into the equation ? Can someone please explain those 3 concepts, maybe even throw in an example ? Before you mark this as a dupe, I've already seen some questions on "Iterator vs Enumerator", however I've yet so see a proper explanation (hence the question). I appreciate your help.

4

In the comment to the article Eric replied to an observation that since the size of a permutation grows exponentially, it would quickly outgrow numbers representable with 32 bits. Eric's reply was that he has no intention of indexing permutations, by which he meant defining a numbering scheme to obtain a sequential number of a permutation. That is why, he said, overflowing 32 bits was not one of his concerns: his approach allowed to enumerate, or simply "produce", all permutations in some order, as opposed to providing a way to get N-th permutation according to some numbering scheme.

Contrast this to a problem discussed in a question about producing N-th permutation without going through all the preceding ones: here, the author wants to index, or give numbers to, permutations, so the size of an integer is of a concern to them.

Here is an example of indexing permutations discussed in the question linked above:

1 ABC
2 ACB
3 BAC
4 BCA
5 CAB
6 CBA

This indexing scheme lets you answer two questions:

  • What is the number of a particular permutation, say, BCA? (it's 4)
  • What is permutation number X, say, 5? (it's CAB)

This problem could be somewhat harder than enumerating all permutations, because you need to produce a numbering scheme.

  • Great stuff, I appreciate your help. It's pretty obvious now that I'm looking at it ... But what about an Iteration, how is it different from an Enumeration ? – Dimitar Dimitrov May 11 '13 at 10:46
  • 1
    @DimitarDimitrov Enumeration and iteration in this context are very closely related: enumeration means producing all permutations, while iteration means going through them in a loop. To enumerate a sequence you need to know how to do it; to iterate it you need to actually do it. In the context of C#, one could enumerate a sequence by providing an IEnumerabl<T> with deferred execution. Then he would have a choice to iterate that sequence, say, with a foreach loop, or do something else - say, taking the first few elements, and throwing away the rest of the enumeration. – dasblinkenlight May 11 '13 at 10:59
  • So just to summarize, enumeration is the act of "producing" a sequence of permutations and iteration is the act of "going through the sequence" ? Furthermore differed execution is basically "knowing how to enumerate and doing it upon request" not necessary upfront ? – Dimitar Dimitrov May 11 '13 at 11:45
  • @DimitarDimitrov Yes, that's close enough. "Producing" does not necessarily mean producing the sequence in the memory, though, so you could "produce" a sequence by providing a pair of HasNext and GetNext methods to the caller. – dasblinkenlight May 11 '13 at 11:53
  • Thanks, mate ! Really helped a lot. – Dimitar Dimitrov May 11 '13 at 11:59
1

Conceptually, both enumerators and iterators know little about a sequence. They usually can:

  • Fetch next item
  • Check if current element is the last one

They may behave differently when a collection is modified. These types are useful to work with large amount of data, steams, LINQ and lazy loading, as they fetch one element at a time. To fetch an i element from a sequence you have to iterate through all previous elements, this is an O(N) operation. You can think about them as a linked list data structure.

Indexers only work with fixed-length memory, even though underlying storage may shrink and grow (like in a List<T> type). Indexers know what is the type of data, and how much it take storage, or how much a reference to the object take storage. This allows indexers to fetch any item from the sequence in O(1), the down side is that you must store all the data in-memory. It simply multiplies the index by the size of the element and adds the result to the start address - hence it gets a value or reference to needed object. You can think about indexers as an array data structure.

1

You can only index things, that are real. You can index an array using operator [] or you can index a list (in C# at least, people that are into more formal computer science will cringe).

You cannot index an IEnumerable<T> because to enumerate simple means that you can go through all items in order. But you cannot jump to a specific item.

string text = "hello";

This is enumerating:

foreach( var c in text ) Console.WriteLine(c);

This uses indexing:

for( int i = 0 ; i < text.Length ; i++ ) Console.WriteLine(text[i]);

This is real data:

var arr = new int[15]; 

This is not real, there's no data in number, just a promise to deliver data on enumeration. You will need to materialize it to have real data:

var number = GetNumbers();

This will produce an endless number of ones. It's not real data, it's kind of a recipe how to produce real data once you enumerate it:

public IEnumerable<int> GetNumbers()
{
    while(true) yield return 1;
}
  • This helped a lot ! I wish I can accept 2 answers ... Or at least up vote more than once ! – Dimitar Dimitrov May 11 '13 at 11:47

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.