# Problem implementing branch and bound for knapsack

I'm having a headache implementing this (awful) pseudo-java code (I wonder: why the hell people do that?) for the b&b knapsack problem. This is my implementation so far, which outputs a maximum of 80 (when it should print 90, for the items on the textbook sample). I created a Comparator (on a LinkedList) to sort the elements by Pi/Wi before passing them to the algorithm, but on this input is already presorted. I'm debugging right now (and updating the posted code), cause I guess it's an array indexing problem... or is there a mistake on the bounding function?

input:

4 16 //# items maxWeight
40 2 // profit weight
30 5
50 10
10 5

class Node
{
int level;
int profit;
int weight;
double bound;

}

public class BranchAndBound {

static int branchAndBound (LinkedList<Item> items, int W) {

int n = items.size();

int [] p= new int[n];
int [] w= new int[n];

for (int i=0; i<n;i++){

p [i]= (int)items.get(i).value;
w [i]= (int)items.get(i).weight;

}

Node u = new Node();
Node v = new Node(); // tree root

int maxProfit=0;

LinkedList <Node> Q = new LinkedList<Node>();

v.level=-1;
v.profit=0;
v.weight=0; // v initialized to -1, dummy root

Q.offer(v); // place the dummy at the root

while(!Q.isEmpty()){

v = Q.poll();

if (v.level==-1){
u.level=0;
}
else if(v.level != (n - 1))
{
u.level = v.level+1; // set u to be a child of v
}

u = new Node();
u.weight = v.weight + w[u.level];// set u to the child
u.profit = v.profit + p[u.level]; // that includes the
//next item
double bound = bound(u, W, n, w, p);
u.bound=bound;

if(u.weight<=W && u.profit>maxProfit){
maxProfit = u.profit;
}

if(bound>maxProfit){
Q.add(u);
}

u = new Node();
u.weight = v.weight; // set u to the child that
u.profit = v.profit;// does NOT include the next item

bound = bound(u, W, n, w, p);
u.bound = bound;

if (bound>maxProfit){
Q.add(u);
}
}

return maxProfit;


}

public static float bound(Node u, int W, int n, int [] w, int [] p){

int j=0; int k=0;
int totWeight=0;
float result=0;

if(u.weight>=W)
return 0;
else {
result = u.profit;
j= u.level +1;
totWeight = u.weight;

while ((j < n) && (totWeight + w[j]<=W)){
totWeight = totWeight + w[j]; // grab as many items as possible
result = result + p[j];
j++;
}
k=j; // use k for consistency with formula in text
if (k<n)
result = result + (W-totWeight) * p[k]/w[k];// grab fraction of kth item

return result;
}

}

}

-
Have you tried stepping through the code in a debugger? –  Amir Afghani Sep 16 '11 at 18:54
I'm doing so, the code updates/changes have been me stepping through the code. –  andandandand Sep 16 '11 at 19:12
I guess you mean it should print 90 not 98 –  Andre Holzner Sep 16 '11 at 19:56
yes, 90, sorry. Typo. –  andandandand Sep 16 '11 at 19:59

## 1 Answer

I have only tested it with the given example, but it looks like that wherever the pseudocode says

enqueue(Q, u)


you should add a copy of u to the linked list, rather than passing a reference to u and continue manipulating it.

In other words, define a copy constructor for the class Node and do

Q.offer(new Node(u));


instead of

Q.offer(u);


In fact, the code you give above only allocates two instances of the class Node per call to branchAndBound(..)

-
Yeah, I already changed that creating a new Node. The code is still faulty, now it's printing 320 as the optimum value. –  andandandand Sep 16 '11 at 20:34
+1, I forgot :) –  andandandand Sep 16 '11 at 20:59
it printed 90 for me (taking the version before I wrote the answer) –  Andre Holzner Sep 16 '11 at 21:13
in the new version of your code, you do not copy u.level after doing u = new Node();. That's why I suggested to use the copy constructor when calling Q.offer(..) rather than assigning u to a new instance of Node. The way you have modified it, you have to move the if (v.level == -1) { .. } else { .. } block after u = new Node(); and repeat the same block after the second u = new Node();. Then I also get 90 instead of 320. –  Andre Holzner Sep 16 '11 at 21:19
Can you post what you did on pastebin? I found a fault on the bounding function on three nodes and I changed the code a bit on the node assignment part per your suggestion. –  andandandand Sep 16 '11 at 23:06