Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

The canonical MoveNext in a Delphi enumerator is written like this:

function TListEnumerator.MoveNext: Boolean;
  Result := FIndex < FList.Count - 1;
  if Result then

This is the form used throughout the RTL, VCL etc. This form appears to be widespread in 3rd party code also.

I think it can be written more simply like this:

function TListEnumerator.MoveNext: Boolean;
  Result := FIndex < FList.Count;

Is there any good reason why the simpler form cannot be used?

My reasoning is as follows. Once MoveNext returns False, the Current property is never accessed again. It doesn't matter that FIndex is off the end of the list since it is never used again. The for in loop is actually implemented like this:

while Enumerator.MoveNext do

In fact it actually makes more sense to me that FIndex goes out of bounds. It means that if anyone uses hand-written enumerator code then they will get range check errors in case Current is accessed after MoveNext returns False.

What's more, FIndex is -1 before the first call to MoveNext. That is one off the list to the left. And after the final call to MoveNext, the one that returns False, isn't it appropriate that FIndex is Count, that is one off the list to the right.

share|improve this question
In your version, you can get out of bounds with the FIndex, don't you ? – TLama Oct 20 '12 at 17:37
@TLama You don't call GetCurrent once MoveNext has returned False. And if you did, out of bounds is what you want. You don't want to get the last item for a second time. To my mind this is the mirror image of the initial state where FIndex is -1. – David Heffernan Oct 20 '12 at 17:41
The reason of don't you at the end of my comment was just because I don't know TListEnumerator and its intention at all. I was just hoping in your weak moment... – TLama Oct 20 '12 at 17:49
Interesting: TListEnumerator.MoveNext has the implementation from your question. Have a look at TList<T>.TEnumerator.MoveNext. It's different. And has an "off-by-one" difference with the non-generic enumerator. Using the non-generic one, FIndex doesn't move beyond Count-1, using the generic one it doesn't move beyond Count and so GetCurrent can actually throw an EArgumentOutOfRange error. Consistency failure if you ask me... – Marjan Venema Oct 21 '12 at 17:48
up vote 3 down vote accepted

You're assuming TListEnumerator will only ever be used in a for loop. Although that will be by far the most common case, your suggested version can misbehave when it isn't. It's just fine to call MoveNext again after it has already returned False once. If you continue calling MoveNext until it returns True, you must get an infinite loop, and with your suggested version, the loop won't be infinite, it'll terminate once you're past the FIndex = MaxInt case.

See the documentation for IEnumerator.MoveNext, which Delphi's implementation is based on (IIRC, it was actually first available in the now dead Delphi .NET):

When the enumerator is at this position, subsequent calls to MoveNext also return false until Reset is called.

share|improve this answer
OK, but there is no Reset in a Delphi enumerator. And as it happens, I only want for in for enumerators I write. – David Heffernan Oct 20 '12 at 18:40
That just means that for a Delphi enumerator, it simplifies to "subsequent calls to MoveNext also return false", without the "until" part. :) – hvd Oct 20 '12 at 18:42
I don't really accept that rules for a different language apply here. But that rule could be a reason why Delphi MoveNext implementations look the way they do. – David Heffernan Oct 20 '12 at 18:43
It's not rules for a different language, it's rules for a different environment, which at one point Delphi could compile for. It was required at that point in time, and whether by accident or by design, it was never changed after support for that environment was dropped. About your edited comment: if your implementation is 100% compatible for the uses that actually occur in your program, then it's fine for your program. – hvd Oct 20 '12 at 18:46
@DavidHeffernan There is Reset in Delphi enumerators, just not in the generic one! Which I think is a huge omission on Embarcadero's part. They have neglected to keep both versions of the Enumerators in sync. Had they made the generic TEnumerator abstract class implement IEnumerator, they would have been told to implement Reset by their own compiler. Why they "forgot" to make the generic enumerator implement the proper interface is beyond me... – Marjan Venema Oct 20 '12 at 19:52

Thinking purely semantically, I would say the original version is correct. Think of it like a conversation:

Application: Hey, list. Go to the next item.
List: No, sorry. I can't.
Application: Oh, allright.
  <some time later:>
Application: List, please give me the current item
List: No problem, here you go.

Whereas in your suggestion, it would go like this:

Application, Hey, list. Go to the next item.
List: No, that's impossible.
Application: Oh, all right.
  <some time later:>
Application: Hi again, List. Give me the current item.
List: Here you go. 
Application: Thanks, mate.
  <some time later, when using the item:>
Application: What the ????!
share|improve this answer
The problem with that is that in the first conversation, the program gives you an item that has already been consumed. Which would be no good. And in the second conversation, WTF is the appropriate response. Neither happens, to the best of my knowledge, since once MoveNext returns False, the enumerator is never asked for the current item again. What I'm looking for here is a refutation of that analysis. This isn't it. – David Heffernan Oct 20 '12 at 18:22
That raises the question if items are always "consumed" when moving next. I suppose this is often the case, when iterating through a list etc, but always? If i use the enumerator to "navigate back and forth" through some data, I think I would prefer that the pointer always was valid. – Svein Bringsli Oct 20 '12 at 18:31
In which case you'd also presumably initialise the enumerator by setting FIndex to 0 rather than -1. Is that correct? – David Heffernan Oct 20 '12 at 18:39
Well, more like a GoFirst procedure or something, but yeah. The problem with my answer vs your question is that we talk about two somewhat different things. My argument was about navigating lists in general, your question was specifically about enumerators (which I suppose you only use to "consume" items). – Svein Bringsli Oct 20 '12 at 18:45
@DavidHeffernan: the delphi enumerators start at -1 because of the for in implementation: while MoveNext do. If you want your enumerators to return valid items on GetCurrent at all times, you will need to address this in your implementation of MoveNext, making sure it doesn't move on the first, but does on the second... I don't like the way the delphi enumerators are implemented, but I wouldn't advise going against them. That is a sure fire way of creating some major headaches. – Marjan Venema Oct 20 '12 at 19:56

Interesting question (+1). Without knowledge of all possible uses of enumerators (or its use at all), at first sight it sure looks odd that its functioning differs between the begin and the end of the list. As you say: Current results in a List index out of bounds error at the beginning, then why not at the end? Seems inconsistent.

But thinking about it a little further: once an enumerator is created, by what- or whoever, the list's bounds are not known, so the first element is not and cannot be selected yet. This in comparison to the behaviour at the end when the bounds are known and the index is limited to.

Datasets function exactly in the same way, but the implementation of enumerators could probably benefit from BOF- and EOF-like behaviour.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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