SPOJ DYZIO

Summary
The given input is a list of cutting instructions as ones and zeros to be applied to length of string. A one indicates the string is to be cut in half and a zero means that the string is to be ignored. The instructions pertain to the leftmost piece of the string. The problem is to determine how many cuts were required to cut the shortest piece of string.

Explanation
The cutting of the string can be visualized as the preorder traversal of a binary tree.

Assume that your position is in the root just before you have started reading the input. Now start reading the input string. If the current character is '1', visit the left subtree and the right subtree one after another. A '0' character means you have reached a leaf (the sub-tree is empty).

Do this recursively. You just have to count the number of nodes you have to visit until reaching the first deepest leaf of the tree.

the pseudo code would be something like this:

VISIT(depth)  /* call this function with VISIT(0) */ if depth > deepest deepest = depth ans = cut_no    /* initially cut_no will be 0 */ if input[current_position] == 1 cut_no = cut_no + 1 current_position = current_position + 1 VISIT(depth + 1) VISIT(depth + 1) else return

Implementation
Although a binary tree data structure certainly encompasses this problem, the solution can be obtained with a simple stack. In fact, a fully implemented tree soution may well exceed the time limit for this problem. Simply keep track of whether a node has been visited once or twice and note the maximum size that the stack achieves.

Input
There are exactly ten test cases. Each test case consists of two lines. The first line is the length $$1\le n\le20000$$ of the instruction string. The next line consists of a sequence of $$n$$ '1's and/or '0's. 9 110011000 9 111000100 3 010 1 1 2 11 15 111100111000000 15 101010110011000 19 1100111011001010000 13 1100111000100 15 111010001010100

Output
4 3 0 1 2 7 7 9 5 4