# Which element are we currently at in a “for x in y:” loop

The python syntax of `for x in y:` to iterate over a list must somehow remember what element the pointer is at currently right? How would we access that value as I am trying to solve this without resorting to `for index, x in enumerate(y):`

The technical reason why I want to do this is that I assume that `enumerate()` costs performance while somehow accessing the 'pointer' which is already existing would not. I see that from the answers however this pointer is quite private and inaccessible however.

The functional reason why I wanted to do this is to be able to skip for instance 100 elements if the current element float value is far off from the 'desired' float range.

The way this was solved was as follows (pure schematic example):

``````# foo is assumed to be ordered in this example
foo = [1,2,3,4,5,6....,99,100]
low = 60
high = 70
z = iter(foo)
for x in z:
if x < low-10
next(islice(z,10,10),None)
if x > high
break
``````
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Why exactly are you avoiding the use of `enumerate()`? It's the cleanest (and simplest) solution, and this is exactly what it's designed for. –  user2032433 Mar 22 at 14:00
I assume (could be wrong) that enumerating the list costs performance and if the under the hood pointer knew the value I could gain performance by adressing it directly. I will add this to the original question so people know why I wanted to avoid `enumerate()` –  Bas Jansen Mar 22 at 14:03
@BasJansen `enumerate()` doesn't "enumerate the list", it enumerates the iteration. It's equivalent to `i=-1; for x in y: i+=1; ...` –  Michael Wild Mar 22 at 14:05
Can you tell us what you'd like to do inside the loop that requires you to know the "pointer"? –  Robᵩ Mar 22 at 14:21
I wanted to display a progress bar by doing `print str(x / (len(y)/10))+"0%"` for every 10% of the iteration. I can easily fix this by using index instead of x after an enumeration but I was hoping I didn't need to do that. –  Bas Jansen Mar 22 at 14:33

You cannot. `for` uses the Python iteration protocol, which for lists means it'll create a private iterator object. That object keeps track of the position in the list.

Even if you were to create the iterator explicitly with `iter()`, the current position is not a public property on that object:

``````>>> list_iter = iter([])
>>> list_iter
<listiterator object at 0x10056a990>
>>> dir(list_iter)
['__class__', '__delattr__', '__doc__', '__format__', '__getattribute__', '__hash__', '__init__', '__iter__', '__length_hint__', '__new__', '__reduce__', '__reduce_ex__', '__repr__', '__setattr__', '__sizeof__', '__str__', '__subclasshook__', 'next']
``````

The point of the iteration protocol is that it lets you treat any sequence, even one that continues without bounds, in exactly the same way. It is trivial to create a sequence generator that does not have a position:

``````def toggle():
while True:
yield True
yield False
``````

That generator will toggle between `True` and `False` values as you iterate over it. There is no position in a sequence there, so there is no point exposing a position either.

Just stick to `enumerate()`. All that `enumerate()` has to do is keep a counter. It doesn't keep position in the wrapped iterator at all. Incrementing that integer does not cost you much performance or memory.

`enumerate()` is basically this, implemented in C:

``````def enumerate(sequence, start=0):
n = start
for elem in sequence:
yield n, elem
n += 1
``````

Because it is implemented in C, it'll beat trying to read an attribute on the original iterator any day, which would require more bytecode operations in each iteration.

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Great clarification of why it is inaccessible, thank you –  Bas Jansen Mar 22 at 14:39
I am assuming that there is no way to skip X elements during the loop? That is the functional aspect I was hoping to 'do'. –  Bas Jansen Mar 25 at 11:15
@BasJansen: Then use a `while` loop instead, or create the iterator before you loop over it and call `next()` on the iterator in the loop: `iterable = iter(sequence)` then `for elem in iterable:` then `next(elem) # skip one element`. –  Martijn Pieters Mar 25 at 11:17
@BasJansen: You can use `itertools.islice()` to 'slice' items from an iterable, but you then need to 'consume' those items still: `list(islice(iterable, 100)) # skip 100 items`. `.next()` is the method on the iterable in Python 2, in Python 3 it has been renamed to `.__next__()`, `next()` is the built-in function that'll work across both Python 2 and Python 3. –  Martijn Pieters Mar 25 at 11:21
@BasJansen: Why don't you join us in the python chat room and we can help you figure things out more easily? –  Martijn Pieters Mar 25 at 13:48

That 'pointer' value is internal to whatever it is that created the iterator. Remember that is doesn't need to be a list (something that can be indexed), so if you really want the 'index', you will need to resort to using enumerate.

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This information is internal to the iterator and cannot be accessed. See here for a description of the iterator protocol. Essentially, the only publicly available member of the iterator is `next()` which raises a `StopIteration` exception once the range is exhausted.

Besides, `enumerate` is pretty efficient. It is the equivalent of writing

``````i = -1
for x in y:
i += 1
# do something with x and i
``````
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No, it uses the underlying iterator, which is not forced to keep track of a current index.

Unless you manually incerement a counter, this is not possible:

``````idx = 0
for x in y:
idx+=1
# ...
``````

so, just keep with `enumerate()`

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