# Sudoku with AC3

I am trying to implement a sudoku problem in java. At the moment I have managed to make the naive implementation of the backtracking, and it seems to be working, but what I need is to use the AC3 algorithm. I have seen the pseudo-code for it on several sources : http://en.wikipedia.org/wiki/AC-3_algorithm (one example) and I am wondering what would be the restraints.

``````function arc-reduce (x, y)
bool change = false
for each vx in D(x)
find a value vy in D(y) such that vx and vy satisfy the constraint R2(x, y)
if there is no such vy {
D(x) := D(x) - vx
change := true
}
return change
``````

To be more specific, I send X, Y as 2 nodes :

``````class Node{
int i,j;
}
``````

Each node holds the coordinates of an element in my sudoku table. But what do I use for the R2 constraint?

My current try :

``````  Map m; //contains a map with structure <i,j,List> where i and j are the coordinates in the sudoku table, and List is the initial Domain of that spot on the table;

public boolean arc-reduce(Node x, Node y){
ArrayList l1 = m.get(x.i,x.j);
ArrayList l2 = m.get(y.i,y.j);

char one,two;
boolean found=false, change=false;

for(int a=0;a<l1.size();a++){
one = l1.get(a);
found = false;

for(int b=0;b<l2.size();b++){
two = l2.get(b);

if(one==two && x.i==y.i) //same char same line
found=true;
if(one==two && x.j==y.j) //same char same column
found=true;

}
if(found==false){
l1.remove(i);
change=true;
}

}
return change;
}
``````

At it's current state the modified domains I get after applying this are not correct. Is there a flaw in my implementation? I would appreciate some hints to set me in the right direction, because this problem is giving me quite the trouble.

-
Could you describe without using code the formulation of Sudoku that you want? – David Eisenstat Aug 1 '13 at 21:33
The typical 9x9 board with no duplicates on same line or column, maybe even in the same 3x3 box. – Dumitru Radu Aug 1 '13 at 21:49
Yes, I'm familiar with Sudoku, but there are many ways to choose variables and constraints. – David Eisenstat Aug 1 '13 at 21:50