# Calculating items included in branch and bound knapsack

Using a branch and bound algorithm I have evaluated the optimal profit from a given set of items, but now I wish to find out which items are included in this optimal solution. I'm evaluating the profit value of the optimal knapsack as follows (adapted from here):

import Queue

class Node:
def __init__(self, level, profit, weight):
self.level = level # The level within the tree (depth)
self.profit = profit # The total profit
self.weight = weight # The total weight

def solveKnapsack(weights, profits, knapsackSize):
numItems = len(weights)
queue = Queue.Queue()
root = Node(-1, 0, 0)
queue.put(root)

maxProfit = 0
bound = 0
while not queue.empty():
v = queue.get() # Get the next item on the queue

uLevel = v.level + 1
u = Node(uLevel, v.profit + e[uLevel][1], v.weight + e[uLevel][0])

bound = getBound(u, numItems, knapsackSize, weights, profits)

if u.weight <= knapsackSize and u.profit > maxProfit:
maxProfit = uProfit

if bound > maxProfit:
queue.put(u)

u = Node(uLevel, v.profit, v.weight)
bound = getBound(u, numItems, knapsackSize, weights, profits)

if (bound > maxProfit):
queue.put(u)
return maxProfit

# This is essentially the brute force solution to the fractional knapsack
def getBound(u, numItems, knapsackSize, weight, profit):
if u.weight >= knapsackSize: return 0
else:
upperBound = u.profit
totalWeight = u.weight
j = u.level + 1
while j < numItems and totalWeight + weight[j] <= C:
upperBound += profit[j]
totalWeight += weights[j]
j += 1
if j < numItems:
result += (C - totalWeight) * profit[j]/weight[j]
return upperBound

So, how can I get the items that form the optimal solution, rather than just the profit?

-
I'm unsure this will give a maximum linear relaxation of the items constraint. –  franklin Jul 8 '13 at 14:46

I have been pouring my head over this for some time. Apparently, you have to add some methods inside your Node class that will assign the node_path and add the current level to it. You call your methods inside your loop and assign the path_list to your optimal_item_list when your node_weight is less than the capacity and its value is greater than the max_profit, ie where you assign the maxProfit. You can find the java implementation here

-

I got this working using your code as the starting point. I defined my Node class as:

class Node:
def __init__(self, level, profit, weight, bound, contains):
self.level = level          # current level of our node
self.profit = profit
self.weight = weight
self.bound = bound          # max (optimistic) value our node can take
self.contains = contains    # list of items our node contains

I then started my knapsack solver similarly, but initalized root = Node(0, 0, 0, 0.0, []). The value root.bound could be a float, which is why I initalized it to 0.0, while the other values (at least in my problem) are all integers. The node contains nothing so far, so I started it off with an empty list. I followed a similar outline to your code, except that I stored the bound in each node (not sure this was necessary), and updated the contains list using:

u.contains = v.contains[:]    # copies the items in the list, not the list location
# Initialize u as Node(uLevel, uProfit, uWeight, 0.0, uContains)
u.contains.append(uLevel)    # add the current item index to the list

Note that I only updated the contains list in the "taking the item" node. This is the first initialization in your main loop, preceding the first if bound > maxProfit: statement. I updated the contains list in the if: statement right before this, when you update the value of maxProfit:

if u.weight <= knapsackSize and u.value > maxProfit:
maxProfit = u.profit
bestList = u.contains

This stores the indices of the items you are taking to bestList. I also added the condition if v.bound > maxProfit and v.level < items-1 to the main loop right after v = queue.get() so that I do not keep going after I reach the last item, and I do not loop through branches that are not worth exploring.

Also, if you want to get a binary list output showing which items are selected by index, you could use:

taken = [0]*numItems
for item in bestList:
taken[item] = 1

print str(taken)

I had some other differences in my code, but this should enable you to get your chosen item list out.

-
where exactly is this "taking the item" branch? it appears to me that the "taking the item branch" is the first if statement that runs if bound > maxProfit: however placement there doesn't return the correct indices. at least where i have tried. also uContains should be u.contains –  franklin Jul 9 '13 at 20:55
The "taking the item" branch (node would be a better word I suppose) is the code preceding the first if bound > maxProfit: statement. The contains list is updated in the statement before that when we update the maxProfit value. I have updated my answer to reflect this. I also corrected the issue with the u.contains variable name, and changed value to profit to be more consistent with the OPs code. –  Engineero Jul 10 '13 at 0:44
that's awsome. I hope your answer is accepted. Also, I wrote a routine that doesn't involve a bound parameter in the Node class. Simply passing the node itself and extracting the node's level will be enough for the routine to determine the bound. –  franklin Jul 10 '13 at 15:47