I have an array a of 10 booleans (or equivalently the binary representation of a number < 1024). I want to compare this array to a large set of arrays b[i] of booleans of the same size in the following way:
The function compare(a,b[i]) should return true if the elements of the array a are never true when the element of at the same position in b[i] is false.
As an exemple in java
boolean compare(boolean a1, boolean a2){
for (int j = 0; j<10; j++)
if (a1[j] && !a2[j])
return false;
return true;
}
Is there a better implementation of this function? If one consider the corresponding binary number to be the coefficients of the prime decomposition of a integer A1 (and A2), an equivalent function would be
boolean compare (int A1, int A2){
if (gcd(A1,A2)==A1)
return true;
else
return false;
}
with for example, (http://www.java-tips.org/java-se-tips/java.lang/finding-greatest-common-divisor-recursively.html)
int gcd(int a, int b) {
if (b==0)
return a;
else
return gcd(b, a % b);
}
but I don't think that this is more efficient (but I may be wrong).
Does anyone has an idea ? All suggestions are welcome!
EDIT: I will go back with some profiling later... Thanks for all your propositions!
comparemethodequals, becausecompareTois used for the notion of ordering rather than equality. Signature of the method has booleans rather than arrays of booleans as arguments, I guess this was a mistake. I don't know what are you representing by arrays of booleans, but most of the times those are bad, consider using bytes for space efficiency and possibly comparision speed. You could represent an array of 10 booleans with 2 bytes and compare them using&and~operators instead of ten comparisions. – Gabriel Ščerbák Aug 8 '11 at 0:36