I am looking to write a data structure to represent some genetic data. This data can be represented as a list of size `n`

, where each entry also has a "genetic position" which is a real number between 0 and 1. To make nomenclature clear, I'll call the position in the list `id`

and the genetic position `gpos`

. The way I implemented this is as a class with

```
class Coords(object):
def __init__(self, *args, **kwargs):
self.f = list(*args, **kwargs)
self.r = dict()
for i,e in enumerate(self.f):
self.r[e] = i
def __setitem__(self,x,y):
self.f.__setitem__(x,y)
self.r.__setitem__(y,x)
def __getitem__(self,x):
return self.f.__getitem__(x)
def __len__(self):
return self.f.__len__()
```

now, I have two issues with this. The first one is that the indeces of self.r are floats, which is obviously a bad idea. I was thinking of converting them to strings (with a fixed number of digits), but is there a better idea? The other issue I have is that I want to implement accessing entries via `gpos`

, so if I, for example, would like to access everything between `gpos`

0.2 and 0.4, I would like to be able to do that using

```
import numpy as np
Coords(np.arange(1,0,-.1))
c.r[0.2:0.4]
```

is there an easy way to define that? I was thinking of finding the correct `id`

of the starting and ending positions using binary search and then access `self.f`

using these ids, but is there a way to implement above syntax?