```
import itertools
class Indexable(object):
def __init__(self,it):
self.it = iter(it)
def __iter__(self):
return self.it
def __getitem__(self,index):
try:
return next(itertools.islice(self.it,index,index+1))
except TypeError:
return list(itertools.islice(self.it,index.start,index.stop,index.step))
```

You could use it like this:

```
it = Indexable(fib())
print(it[10])
#144
print(it[2:12:2])
#[610, 1597, 4181, 10946, 28657]
```

Notice that `it[2:12:2]`

does not return `[3, 8, 21, 55, 144]`

since the iterator had already advanced 11 elements because of the call to `it[10]`

.

**Edit:** If you'd like `it[2:12:2]`

to return `[3, 8, 21, 55, 144]`

then perhaps use this instead:

```
class Indexable(object):
def __init__(self, it):
self.it = iter(it)
self.already_computed = []
def __iter__(self):
for elt in self.it:
self.already_computed.append(elt)
yield elt
def __getitem__(self, index):
try:
max_idx = index.stop
except AttributeError:
max_idx = index
n = max_idx - len(self.already_computed) + 1
if n > 0:
self.already_computed.extend(itertools.islice(self.it, n))
return self.already_computed[index]
```

This version saves the results in `self.already_computed`

and uses those results
if possible. Otherwise, it computes more results until it has sufficiently many
to return the indexed element or slice.