Might be a n00b question, but I currently have a class that implements an iterator so I can do something like
for i in class():
but I want to be able to access the class by index as well like
How can I do that?
The current accepted answer from @Ignacio Vazquez-Abrams is sufficient. However, others interested in this question may want to consider inheriting their class from an abstract base class (
ABC) (such as those found in the standard module
collections.abc). This does a number of things (there are probably others as well):
isinstance(myobject,SomeABC)to work correctly.
(Note that, in addition to the above, creating your own
ABC can allow you to test for the presence of a specific method or set of methods in any object, and based on this to declare that object to be a subclass of the
ABC, even if the object does not inherit from the
ABCdirectly. See this answer for more information.)
list-like class using
Now as an example, let's choose and implement an
ABC for the class in the original question. There are two requirements:
Obviously, this class is going to be some kind of collection. So what we will do is look at our menu of
collection ABC's to find the appropriate
ABC (note that there are also
numeric ABCs). The appropriate
ABC is dependent upon which abstract methods we wish to use in our class.
We see that an
Iterable is what we are after if we want to use the method
__iter__(), which is what we need in order to do things like
for o in myobject:. However, an
Iterable does not include the method
__getitem__(), which is what we need in order to do things like
myobject[i]. So we'll need to use a different
On down the
collections.abc menu of abstract base classes, we see that a
Sequence is the simplest
ABC to offer the functionality we require. And - would you look at that - we get
Iterable functionality as a mixin method - which means we don't have to define it ourselves - for free! We also get
count. Which, if you think about it, are all things that should be included in any indexed object. If you had forgotten to include them, users of your code (including, potentially, yourself!) might get pretty annoyed (I know I would).
However, there is a second
ABC that also offers this combination of functionality (iterable, and accessible by
Mapping. Which one do we want to use?
We recall that the requirement is to be able to access the object by index (like a
list or a
tuple), i.e. not by key (like a
dict). Therefore, we select
Sequence instead of
Sidebar: It's important to note that a
Sequence is read-only (as is a
Mapping), so it will not allow us to do things like
myobject[i] = value, or
random.shuffle(myobject). If we want to be able do things like that, we need to continue down the menu of
ABCs and use a
MutableSequence (or a
MutableMapping), which will require implementing several additional methods.
Now we are able to make our class. We define it, and have it inherit from
from collections.abc import Sequence class MyClass(Sequence): pass
If we try to use it, the interpreter will tell us which methods we need to implement before it can be used (note that the methods are also listed on the Python docs page):
>>> myobject = MyClass() Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Can't instantiate abstract class MyClass with abstract methods __getitem__, __len__
This tells us that if we go ahead and implement
__len__, we'll be able to use our new class. We might do it like this in Python 3:
from collections.abc import Sequence class MyClass(Sequence): def __init__(self,L): self.L = L super().__init__() def __getitem__(self, i): return self.L[i] def __len__(self): return len(self.L) # Let's test it: myobject = MyClass([1,2,3]) try: for idx,_ in enumerate(myobject): print(myobject[idx]) except Exception: print("Gah! No good!") raise # No Errors!