# Tower of Hanoi Call Trace

I was studying tower of hanoi recursive implementation in python. In my prgram I gave print at different points to know it better like

``````def hanoi(n, src, inm, dest):
print "n=",n,"src=",src,"inm=",inm,"dest=",dest
if n == 0:
return
hanoi(n-1, src, dest, inm)
print src, '->', dest
print n
hanoi(n-1, inm, src, dest)

hanoi(2,'A','B','C')
``````

``````n= 2 src= A inm= B dest= C
n= 1 src= A inm= C dest= B
n= 0 src= A inm= B dest= C
A -> B
1
n= 0 src= C inm= A dest= B
A -> C
2
n= 1 src= B inm= A dest= C
n= 0 src= B inm= C dest= A
B -> C
1
n= 0 src= A inm= B dest= C
``````

I could understand upto

``````   1
n= 0 src= C inm= A dest= B
``````

I couldnt understand how A -> C is printed after this. After the call with n= 0 src= A inm= B dest= C, I know function will be returned. There the active function is n= 1 src= A inm= C dest= B. What happens to that?

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If you add two more prints:

``````print "r1"   # before first return
print "r2"   # at the end of the function, before second, implicit return
``````

Then you will see that there were two returns in a row:

``````n= 2 src= A inm= B dest= C
n= 1 src= A inm= C dest= B
n= 0 src= A inm= B dest= C
r1
A -> B
1
n= 0 src= C inm= A dest= B
r1
r2
A -> C
2
n= 1 src= B inm= A dest= C
n= 0 src= B inm= C dest= A
r1
B -> C
1
n= 0 src= A inm= B dest= C
r1
r2
r2
``````
-

This makes perfect sense if you think carefully.

• hanoi(2,A,B,C)
• hanoi(1,A,C,B)
• hanoi(0,A,B,C) returns immediately
• A -> B, n=1
• hanoi(0,C,A,B) returns immediately.
• A -> C, n=2
• hanoi(1,B,A,C)

et cetera. In other words, the call you are puzzled is the second `hanoi` call made in the outermost function.

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