# Why does the following recursive function give the outputs 'atm' and 'hatm'?

I am practicing some programming problems for my upcoming exam. This is one of the practice questions I did not understand:

"What does the following code (in Python) print?"

``````def f(s):
if len(s) <= 1:
return s
return f(f(s[1:])) + s[0] #Note double recursion

print f('mat')
print f('math')
``````

Apparently, the answers are

``````atm
hatm
``````

But why?

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What do you think it should print? –  wim Oct 23 '13 at 19:15
Step through it by hand. Indent for each recursion call. –  clcto Oct 23 '13 at 19:19
My mistake, it should have been 'hatm'. –  Max Muller Oct 23 '13 at 19:32

1. `f("mat") = f(f("at"))+"m" -> f(f(f("t"))+"a") +"m" -> f("ta") + "m" -> "atm"`
• `f("ta") = f(f("a")) + "t" -> f("a") + "t" -> "at"`
• `f("at") = f(f("t"))+"a" -> f("t")+"a" - > "ta"`
• `f("t") = "t"`
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aha! thanks. I had a misunderstand about what s[1:] did. Now I understand :). –  Max Muller Oct 23 '13 at 19:40
``````f('mat')
f(f('at')) + 'm'
f('at') = f(f('t')) + 'a'
f('t') = 't'
f('at') = f('t') + 'a'
f('t') = 't'
f('at') = 'ta'
f('ta') + 'm'
f('ta') = f(f('a')) + 't'
f('a') = 'a'
f('ta') = f('a') + 't'
f('a') = 'a'
f('ta') = 'at'
'atm'
``````
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To follow the flow of recursive calls, fire up a debugger, such as the cross-platform Winpdb and you'll see all calls live with their arguments.

To try and make sense of 'patterns' in the recursion, try running the function with numbers so you can visualize permutations

``````>>> print f('12')
21
>>> print f('123')
231
>>> print f('1234')
4231
>>> print f('12345')
23451
>>> print f('123456')
456231
>>> print f('1234567')
3426751
``````
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