`2**n -1`

is also **1+2+4+...+2**^{n-1} which can made into a single recursive function (without the second one to subtract 1 from the power of 2).

**Hint**: 1+2*(1+2*(...))

Solution below, don't look if you want to try the hint first.

This works if `n`

is guaranteed to be greater than zero (as was actually promised in the problem statement):

```
def required_steps(n):
if n == 1: # changed because we need one less going down
return 1
return 1 + 2 * required_steps(n-1)
```

A more robust version would handle zero and negative values too:

```
def required_steps(n):
if n < 0:
raise ValueError("n must be non-negative")
if n == 0:
return 0
return 1 + 2 * required_steps(n-1)
```

(Adding a check for non-integers is left as an exercise.)

`1 << n`

can't overflow. This seems to be an exercise in inventing a way to decompose`(1<<n) - 1`

into multiple steps, perhaps setting each bit one at a time like some answers show.`def fn(n): if n == 0: return 1; return (2 << n) - fn(0); # technically recursive`

`C:\MyFolder`

students generally understand the inherently recurrent nature of folders and files(i.e. folders can be nested in each other nigh indefinitely)8more comments