The question is to print all possible interleavings of two given strings. So I wrote a working code in Python which runs like this:

```
def inter(arr1,arr2,p1,p2,arr):
thisarr = copy(arr)
if p1 == len(arr1) and p2 == len(arr2):
printarr(thisarr)
elif p1 == len(arr1):
thisarr.extend(arr2[p2:])
printarr(thisarr)
elif p2 == len(arr2):
thisarr.extend(arr1[p1:])
printarr(thisarr)
else:
thisarr.append(arr1[p1])
inter(arr1,arr2,p1+1,p2,thisarr)
del thisarr[-1]
thisarr.append(arr2[p2])
inter(arr1,arr2,p1,p2+1,thisarr)
return
```

It comes at each point in a string, then for one recursive call, it considers the current element as belonging to the first array, and in the next call, belonging to the other array. So if the input strings are `ab`

and `cd`

, it prints out `abcd`

, `acbd`

, `cdab`

, `cabd`

, etc. `p1`

and `p2`

are pointers to the arrays (Because Python strings are immutable, I am using arrays!). Can anybody tell me, what is this code's complexity, and if it can be improved or not? I have written a similar code to print all combinations of length `k`

from a given array:

```
def kcomb(arr,i,thisarr,k):
thisarr = copy(thisarr)
j,n = len(thisarr),len(arr)
if n-i<k-j or j >k:
return
if j==k:
printarr(thisarr)
return
if i == n:
return
thisarr.append(arr[i])
kcomb(arr,i+1,thisarr,k)
del thisarr[-1]
kcomb(arr,i+1,thisarr,k)
return
```

This too, works on the same principle. So in general, how to find the complexity of such functions, and how do I optimize them? Is it possible to do these by DP? Sample input-output for the first problem:

```
>>> arr1 = ['a','b','c']
>>> arr2 = ['d','e','f']
>>> inter(arr1,arr2,0,0,[])
abcdef
abdcef
abdecf
abdefc
adbcef
adbecf
adbefc
adebcf
adebfc
adefbc
dabcef
dabecf
dabefc
daebcf
daebfc
daefbc
deabcf
deabfc
deafbc
defabc
```

`abcd`

, and string2 is`efgh`

, then in the interleaved string,`a' should come before`

b`, which should come before`

c`, which should come before`

d`. In between these, characters from string2 should fit in, but on the same condition, preserving order of individual letters. – Cupidvogel Oct 11 '12 at 9:49