If your question is "gimme the code", I am afraid that you have not given enough information to implement a good solution. If you read the whole of this answer, you will see why.
If your question is "gimme the algorithm", I am afraid you are looking for an answer in the wrong place. This is a technology-oriented site, not an algorithms-oriented one. Even though we programmers do of course understand algorithms (e.g., why it is inefficient to pass the same string to
strlen in every iteration of a loop, or why bubble sort is not okay except for very short lists), most questions here are like "how do I use API X using language/framework Y?".
Answering complex algorithm questions like this one requires a certain kind of expertise (including, but not limited to, lots of mathematical ability). People in the field of operations research have worked in this kind of problems more than most of us ever has. Here is an introductory book on the topic.
As an engineer trying to find a practical solution to a real-world problem, I would first get answers for these questions:
How big is the average problem instance you are trying to solve? Since your generic problem is NP-complete (as Jitamaro already said), moderately big problem instances require the use of heuristics. If you are only going to solve small problem instances, you might be able to get away with implementing an algorithm that finds the exact optimum, but of course you would have to warn your users that they should not use your software to solve big problem instances.
Are there any patterns you could use to reduce the complexity of the problem? For example, do the items always or almost always come in specific sizes or quantities? If so, you could implementing a greedy algorithm that focuses on yielding high-quality solutions for common scenarios.
What would be your optimality vs. computational efficiency tradeoff? If you only need a good answer, then you should not waste mental or computational effort in trying to provide an optimal answer. Information, whether provided by a person of by a computer, is only useful if it is available when it is needed.
How much are your customers willing to pay for a high-quality solution? Unlike database or Web programming, which can be done by practically everyone because algorithms are kept to a minimum (e.g. you seldom code the exact procedure by which a SQL database provides the result of a query), operations research does require both mathematical and engineering skills. If you are not charging for them, you are losing money.