Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The Wikipedia article about Knapsack problem contains lists three kinds of it:

1) 1-0 (one item of a type) 2) bounded (several items of a type) 3) unbounded (unlimited number of items of a type)

The article contains DP approaches for 1) and 3) types of problem, but no solution for 2).

How can the dynamic programming algorithm for solving 2) be described?

share|improve this question
add comment

2 Answers

up vote 1 down vote accepted

Use the 0-1 variant, but allow repetition of an item in the solution up to the number of times specified in its bound. You would need to maintain a vector stating how many copies of each item you already included in the partial solution.

share|improve this answer
add comment

I posted an article on Code Project which discusses a more efficient solution to the bounded knapsack algorithm.

From the article:

In the dynamic programming solution, each position of the m array is a sub-problem of capacity j. In the 0/1 algorithm, for each sub-problem we consider the value of adding one copy of each item to the knapsack. In the following algorithm, for each sub-problem we consider the value of adding the lesser of the quantity that will fit, or the quantity available of each item.

I've also enhanced the code so that we can determine what's in the optimized knapsack (as opposed to just the optimized value).

ItemCollection[] ic = new ItemCollection[capacity + 1];

for(int i=0;i<=capacity;i++) ic[i] = new ItemCollection();

for(int i=0;i<items.Count;i++)
  for(int j=capacity;j>=0;j--)
    if(j >= items[i].Weight) {
      int quantity = Math.Min(items[i].Quantity, j / items[i].Weight);
      for(int k=1;k<=quantity;k++) {
        ItemCollection lighterCollection = ic[j - k * items[i].Weight];
        int testValue = lighterCollection.TotalValue + k * items[i].Value;
        if(testValue > ic[j].TotalValue) (ic[j] = lighterCollection.Copy()).AddItem(items[i],k);
      }
    }

private class Item {

  public string Description;
  public int Weight;
  public int Value;
  public int Quantity;

  public Item(string description, int weight, int value, int quantity) {
    Description = description;
    Weight = weight;
    Value = value;
    Quantity = quantity;
  }

}

private class ItemCollection {

  public Dictionary<string,int> Contents = new Dictionary<string,int>();
  public int TotalValue;
  public int TotalWeight;

  public void AddItem(Item item,int quantity) {
    if(Contents.ContainsKey(item.Description)) Contents[item.Description] += quantity;
    else Contents[item.Description] = quantity;
    TotalValue += quantity * item.Value;
    TotalWeight += quantity * item.Weight;
  }

  public ItemCollection Copy() {
    var ic = new ItemCollection();
    ic.Contents = new Dictionary<string,int>(this.Contents);
    ic.TotalValue = this.TotalValue;
    ic.TotalWeight = this.TotalWeight;
    return ic;
  }

}

The download in the Code Project article includes a test case.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.