# How to backtrack correctly in this case?

Problem Given a boolean expression consisting of the symbols `0, 1, &, |, ^` and a desired boolean result value, implement a function to count the number of ways of parenthesizing the expression such that it evaluates to result.
Example
Expression `1^0|0|1`
Desired Result `0`
Output `2, 1^((0|0)|1), 1^(0|(0|1))`

My idea is to use backtracking, and evaluate an expression of the form `a operator b`. For example
`1^0|0|1`
`-------`
`0123456`

There are 3 possible evaluations: `0, 2, 4`, more specifically, I have:
`(1)` evaluate at `0 -> 1|0|1`
`(2)` evaluate at `0 -> 1|1`
`(3)` evaluate at `0 -> 1`

Then I backtrack at `(2)`, to evaluate at position `2`... The idea is very simple, but it produced duplicate result. The number of ways for `result = 1` should be `3` but my approach yields `4`.

``````bool evaluate(const string& expr) {
assert(expr.length() == 3);
assert(expr[0] == '0' || expr[0] == '1');
assert(expr[1] == '^' || expr[1] == '|' || expr[1] == '&');
assert(expr[2] == '0' || expr[2] == '1');

bool result;
bool a = (expr[0] == '1' ? 1 : 0);
bool b = (expr[2] == '1' ? 1 : 0);

switch (expr[1]) {
case '^' :
result = a ^ b;
break;

case '|' :
result = a | b;
break;

case '&' :
result = a & b;
break;
}

return result;
}

void transform_at(string& s, int start) {
bool result = evaluate(s.substr(start, 3));
string left = s.substr(0, start);
string right = s.substr(start + 3);
result ? left.append(1, '1') : left.append(1, '0');
s = left + right;
}

int count_parenthese_grouping(string expr, const bool result) {
cout << "[recurse on]: " << expr << endl;
if (expr.length() == 3 && evaluate(expr) == result) {
return 1;
}
else if (expr.length() == 3 && evaluate(expr) != result) {
return 0;
}
else {
int operators = expr.length() - 2;
int total = 0;

for (int i = 0; i < operators; i += 2) {
string temp = expr;
transform_at(expr, i);
total += count_parenthese_grouping(expr, result);
expr = temp;
}

}
}
``````

I couldn't see how this solution generated duplicate result! Could anyone help me out?

-

The duplication comes from the fact that you can arrive at (1^0)|(0|0) in two ways: first, parenthesize 1^0 then 0|0; second, parenthesize 0|0 then 1^0.

You need to ensure that you only count the same parenthesizing once.

A possible approach is to calculate an identifing number from the parenthesizing, then maintain a set of these id numbers and only count the ones that were not in the set yet.

One possibility for such id would be to represent the parentheses in a bit pattern: the first n-1 bits representing first-level parhentheses, the next n-2 bits representing second-level parentheses (parentheses containing first-level ones), etc.

so for example

``````(1^0)|0|0   would become 10000
1^(0|0)|0   would become 01000
1^0|(0|0)   would become 00100
(1^0)|(0|0) would become 10100
(1^(0|0))|0 would become 01010
1^((0|0)|0) would become 01001
``````
-
Thanks a lot. Sorry I couldn't vote you up since I don't have enough reputations. –  iori Jun 14 '12 at 0:36
@iori - You can still accept the answer if it helped you solve the problem –  Attila Jun 14 '12 at 0:39