# find element in the middle of a stack

I was asked this question in an interview.The problem was i would be given a stack and have to find the element in the middle position of the stack."top" index is not available (so that you don't pop() top/2 times and return the answer).Assume that you will reach the bottom of the stack when pop() returns -1.Don't use any additional data structure.

Eg:

``````stack   index
-----
2    nth element
3
99
.
1    n/2 th element
.
-1   bottom of the stack(0th index)
``````

Answer: 1 (I didn't mean the median.Find the element in middle position)

Is recursion the only way?

Thanks,

Kannan

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"Find the element in middle position" -- that is definition of the median :) what you can use? no extra vars? what stack methods available, push, pop, others? –  jancha Sep 18 '11 at 11:36
What the "middle" element of a stack with 4 elements? [ 4 13 22 31 ]? 13 or 22? ??? –  pmg Sep 18 '11 at 11:40
@jancha No, median is the element with the middle value. –  quasiverse Sep 18 '11 at 12:01
@kannan What do you mean by `"Is recursion the only way?"` Are you implying that you already know a solution? –  quasiverse Sep 18 '11 at 12:03
Isn't recursion equivalent to using another stack? The question says that additional data structures are not allowed. Does it mean "do not use other kinds of data structures (other than a stack)" or "do not use any other structures that can hold more than O(1) elements, including another stack"? –  Omri Barel Sep 18 '11 at 12:17

Walk through the stack, calculate the depth and on the way back return the appropriate element.

``````int middle(stack* s, int n, int* depth) {
if (stack_empty(s)) {
*depth = n;
return 0; //return something, doesn't matter..
}
int val = stack_pop(s);
int res = middle(s, n+1, depth);
stack_push(s, val);
if (n == *depth/2)
return val;
return res;
}

int depth;
middle(&stack, 0, &depth);
``````

Note: yes, recursion is the only way. Not knowing the depth of the stack means you have to store those values somewhere.

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+1 Iff OP clarifies that recursion is allowed. (And no, for those of you who didn't know, that wasn't a spelling mistake) –  quasiverse Sep 18 '11 at 12:22
without additional data structure you have to use recursion to store those values somewhere. –  Karoly Horvath Sep 18 '11 at 12:24
recursion is allowed.I second your point.You have to use recursion to store the values. I thought there could be some other solution. –  kannan Sep 18 '11 at 15:34

Recursion is never the only way ;)

However, recursion provides you with an implied additional stack (i.e. function parameters and local variables), and it does appear that you need some additional storage to store traversed elements, in that case it appears that recursion may be the only way given that constraint.

-

Here is one solution: Take two pointers, advance one of them two steps at a time (fast), the other one only one step at a time (slow). If the fast one reaches the bottom return the slow pointer which points to the middle index. No recursion required.

``````int * slow = stack;
int * fast = stack;
while(1) {
if(STACK_BOTTOM(fast)) return slow;
fast--;
if(STACK_BOTTOM(fast)) return slow;
slow--;
fast--;
}
``````
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You do know what a stack is right? This assumes the stack is implemented in a certain way and that you have access to it's internals. –  quasiverse Sep 18 '11 at 12:05
Does a stack define random access operations? If not, you will have to transfer everything you pop into a second stack, but the question specifically says not to use additional data structures. –  Omri Barel Sep 18 '11 at 12:07
True, but this is just to give one idea. If it's implemented with LinkedLists, one would have to adjust the code, but the principle would still work. –  rumpel Sep 18 '11 at 12:09
facepalm The point being made is that you don't know how the stack is implemented. –  quasiverse Sep 18 '11 at 12:10
@rumpel, can you rewrite your code to use only "pop()" and "push()" operators? You assume that the data is still there for the "slow" pointer to access after you've seen it with the "fast" pointer, but I don't think that's possible with pop/push operations. –  Omri Barel Sep 18 '11 at 12:10

Recursion seems to be the only way. If you try to use the fast and slow pointer concept during popping, you will need to store the values somewhere and that violates the requirement of no additional data structure.

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This question is tagged with `c`, so for the c programming language I agree that recursion is the only way. However, if first class anonymous functions are supported, you can solve it without recursion. Some pseudo code (using Haskell's lambda syntax):

``````n = 0
f = \x -> 0        # constant function that always returns 0

while (not stack_empty) do
x = pop
n = n+1
f = \a -> if (a == n) then x else f(a)

middle = f(n/2)    # middle of stack

# stack is empty, rebuilt it up to middle if required
for x in (n .. n/2) do push(f(x))
``````

Please note: during the while loop, there's no (recursive) call of `f`. `f(a)` in the else branch is just used to construct a new(!) function, which is called `f` again.

Assumed the stack has 3 elements 10, 20, 30 (from bottom to top) this basically constructs the lambda

``````(\a -> if a==1
then 30
else (\b -> if b==2
then 20
else (\c -> if c==3
then 10
else (\d -> 0)(c)
)
(b)
)
(a)
)
``````

or a little bit more readable

``````f(x) = if x==1 then 30 else (if x==2 then 20 else (if x==3 then 10 else 0))
``````
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