Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Lets say I have some "object" that I've defined elsewhere. Maybe it represents a set of items, but is more complex than a simple table. Whatever it may be, it would be logical to iterate over it.

As such, it has a iterator method defined. So I can write this:

local myObject = AbstractObject:new()

for obj in myObject:iterator() do

What I'm wondering is if there is some metamethod trickery that I can do, which will allow me to write this:

local myObject = AbstractObject:new()

for obj in myObject do

So is there?

share|improve this question

2 Answers 2

up vote 3 down vote accepted

One slight change to your example would make the semantics a lot less painful:

local myObject = AbstractObject:new()

for obj in myObject() do

That way, you can use a metatable to define the __call metamethod to return myObject:interator(), with code that looks something like this in AbstractObject:new():

setmetatable(newobject, {__call = function() return newobject:iterator() end})

Without the iterator construction, you'll be effectively reusing a single iterator for multiple iterations, which means you'll need to keep the iterator state in the object/creation closure, and reset it after it finishes so the next call will restart the iteration again. If you really want to do this, the best solution would really be to write something for the specific iteration implementation, but this would perform the generic iteration:

local iterator

--table.pack is planned for 5.2
local pack = table.pack or function(...)
  local t = {...}
  t.n = select('#',...)
  return t

--in 5.1 unpack isn't in table
local unpack = table.unpack or unpack

function metamethods.__call(...)
  if not iterator then
    iterator = newobject:iterator()

  local returns = pack(iterator(...))

  if returns[1] == nil then
    --iteration is finished: next call will restart iteration
    iterator = nil
  return unpack(returns, 1, returns.n)

Again: This should really be adjusted to fit your use case.

share|improve this answer
That doesn't work. Because that would create a new iterator on each cycle of the loop. –  Eric May 24 '11 at 16:27
Ack! Now you've changed your answer! Yes, that does work out slightly better. My main reason for disliking myObject() is that forgetting to add the parentheses results in not an error, but an infinite loop! –  Eric May 24 '11 at 16:36
@Eric: That sort of problem is why this sort of metamethod trickery is normally frowned upon. –  Stuart P. Bentley May 24 '11 at 16:48
I've added an example for the exact behavior you mentioned, but again, I strongly discourage its use as written. –  Stuart P. Bentley May 24 '11 at 17:15
Well, there's nothing you can do in that case. You'd have the same problem if you were saving the iterator externally (local iter = myObject:iterator()) and then using that in multiple for loops. This is why stateful iterators are normally constructed in the for statement. As has been said a few times now, the design you described is a Bad Idea. –  Stuart P. Bentley May 24 '11 at 17:38

The object used after in must be a function, which will be called repeatedly by the generic for loop.

I'm not sure if you can make a table or user object callable like a function, but even then the problem would be that your object can only have one internal iterator state - i.e. it would not allow multiple iterations over the same object (neither concurrently nor sequentially), unless you are somehow explicitly resetting it.

As answered by Stuart, you could use the __call metamethod suitably to return the iterator, but then you would have to write

for obj in myObject() do

This is not quite what we want.

Reading a bit more in PiL, I see that there are more components used in the for loop: the invariant loop state, and the current value of the control variable, which are passed to the iterator function in each call. If we don't provide them in the in expression, they are initialized to nil.

Thus, my idea would be to use these values to distinguish the individual calls.

If you can create a next(element) function for your collection which returns for each element the next one, the implementation would be simple:

metatable.__call = function(_state, _last)
    if(_last == nil) then
       return obj:first()
       return obj:next(_last)

But often we would not have something like this, then it gets more complicated.

I thought about using coroutines here, but these still need a factory method (which we want to avoid). It would result in something similar like what Stuart wrote (i.e. saving the iterator state somewhere in the object itself or in some other variable related to the object), and using the parameter and/or the iterators result to decide when to create/clean the iterator object/state.

Nothing won here.

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.