I have implemented a binary decision tree in Python to solve a pretty standard knapsack problem: there is a collection of objects, each with an associated weight and value, and objects must be selected to maximize the value, subject to a weight constraint.

I see how to return the maximum value, but am struggling to find a clever way to return the identities of the objects that yielded the maximum value.

Right now, I'm creating a "string vector", so to speak, with "1"s and "0"s representing the choice to either pack or not pack a certain object. The first "1" or "0" in the string vector represents the decision that was made for the object that corresponds to the first object in the list of objects, and so on.

Is there a better way to do this?

The code I have written:

```
def knapsack(weightList, valueList, availableWeight, index):
if index == 0:
if weightList[index] <= availableWeight:
return valueList[index], '1'
else:
return 0, '0'
else:
reject, rVector = knapsack(weightList, valueList, availableWeight, index - 1)
rVector += "0"
if weightList[index] <= availableWeight:
take, tVector = knapsack(weightList, valueList, availableWeight - weightList[index], index - 1)
take += valueList[index]
tVector += "1"
else:
take = -1
if take > reject:
return take, tVector
else:
return reject, rVector
weightList = [1, 2, 6, 5, 8, 3, 7, 2, 4, 7, 1]
valueList = [2, 5, 4, 6, 7, 8, 2, 4, 5, 6, 8]
availableWeight = 5
index = len(weightList) - 1
maxValue, vector = knapsack(weightList, valueList, availableWeight, index)
print maxValue
print vector
```

The output is:

```
18
10000100001
```