I'm interested in programming languages that can reason about their own time complexity. To this end, it would be quite useful to have some way of representing time complexity programmatically, which would allow me to do things like:

```
f_time = O(n)
g_time = O(n^2)
h_time = O(sqrt(n))
fastest_asymptotically = min(f_time, g_time, h_time) # = h_time
total_time = f_time.inside(g_time).followed_by(h_time) # = O(n^3)
```

I'm using Python at the moment, but I'm not particularly tied to a language. I've experimented with sympy, but I haven't been able to find what I need out of the box there.

Is there a library that provides this capability? If not, is there a simple way to do the above with a symbolic math library?

**EDIT**: I wrote a simple library following @Patrick87's advice and it seems to work. I'm still interested if there are other solutions for this problem, though.