# Use LINQ to find complex combinations of items in two lists

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This question is very similar to a previous question of mine, Use LINQ to count the number of combinations existing in two lists, except with some further twists.

I have a list of `CartItem`s that can receive a discount based on the items specified in the list of `DiscountItem`s. I need to be able to pull out the items in the Cart that can receive a discount and apply the appropriate discount specfied in the `DiscountItem`. The discount is only applied for each combination that exists. Here's what the two lists might look like to before the discount is applied:

```    BEFORE DISCOUNT:

CartItems                               DiscountItems
==============================          ===========================
SKU     Qty    DiscountApplied          SKU     DiscountAmount
==============================          ===========================
Ham     2      \$0.00                    Ham     \$0.33
Bacon   1      \$0.00                    Bacon   \$2.00
Ham     1      \$0.00
Bacon   2      \$0.00
Cheese  1      \$0.00
Bacon   1      \$0.00 ```

The tricky part is that it's not simply a matter of joining the two lists together or counting the number of combinations. The discount is applied for all combinations of `DiscountItem`s that appears in the list of `CartItem`s. There are 3 such combinations in the above example and if you were to apply the discount for the 3 combinations iteratively across the list, the data would look like the following each time the discount is applied:

```    After 1st Discount is applied:

CartItems                               DiscountItems
==============================          ===========================
SKU     Qty    DiscountApplied          SKU     DiscountAmount
==============================          ===========================
Ham     2      \$0.33                    Ham     \$0.33
Bacon   1      \$2.00                    Bacon   \$2.00
Ham     1      \$0.00
Bacon   2      \$0.00
Cheese  1      \$0.00
Bacon   1      \$0.00

After 2nd Discount is applied:

CartItems                               DiscountItems
==============================          ===========================
SKU     Qty    DiscountApplied          SKU     DiscountAmount
==============================          ===========================
Ham     2      \$0.66                    Ham     \$0.33
Bacon   1      \$2.00                    Bacon   \$2.00
Ham     1      \$0.00
Bacon   2      \$2.00
Cheese  1      \$0.00
Bacon   1      \$0.00

After 3rd Discount is applied:

CartItems                               DiscountItems
==============================          ===========================
SKU     Qty    DiscountApplied          SKU     DiscountAmount
==============================          ===========================
Ham     2      \$0.66                    Ham     \$0.33
Bacon   1      \$2.00                    Bacon   \$2.00
Ham     1      \$0.33
Bacon   2      \$4.00
Cheese  1      \$0.00
Bacon   1      \$0.00        ```

In the end, everything gets a discount except for the cheese and the extra bacon. The cheese doesn't get discounted because it's not a discounted item in the list. The extra bacon doesn't get a discount because it doesn't have a corresponding ham item to qualify for a discount combination. There are a total of 3 hams and 4 bacons, so one of the bacons is not going to get a discount.

I imagine I should be able to solve this problem using LINQ because it involves enumerating over 2 separate lists, but I can't think of what LINQ methods I would use to make this happen. The end result of the LINQ query should be the collection of `CartItem`s with the discount having been applied.

-
Are you allowed to aggregate your cart items? – NickLarsen Jun 28 '10 at 19:41
@Nick I wish I could, but no. That would have been my first approach and obviously would have made the problem a lot easier to solve. – Ben McCormack Jun 28 '10 at 19:46
I am curious about your business rules here. You note that the cheese and "extra bacon" would not have a discount applied. Why? The rules don't seem to make sense, given that Ham and Bacon both get discounts. Clarification of your business rules would help in formulating a solution. – jrista Jun 28 '10 at 20:02
@jrista Good point. The business rule is that the discounted items receive a discount for each occurence of the combination in the cart. So 3 hams + 4 bacons will make 3 combinations that qualify for a discount and will leave 1 bacon without a discount. I've updated my question to clarify. – Ben McCormack Jun 28 '10 at 20:06
@Ben: Thanks for the clarification. Next question: Is there some reason this processing has to be LINQ? There are existing design patterns that might solve this problem better. – jrista Jun 28 '10 at 20:13

To get exactly the result you want is bit difficult.You may have to store intermediate result - so need to introduce a new class. This was challenging so I did it as below - it seems to work

``````class Program {
public class CartItem {
public string sku { get; set; }
public int qty {get;set;}
public decimal DiscountApplied { get; set; }
public CartItem(string sku,int qty,decimal DiscountApplied) {
this.sku=sku;
this.qty=qty;
this.DiscountApplied=DiscountApplied;
}
}
public class DiscountItem{
public string sku {get;set;}
public decimal DiscountAmount {get; set;}
}
static List<CartItem> carts=new List<CartItem>(){
new CartItem("Ham",2,0.0m ),
new CartItem("Bacon",1,0.00m  ),
new CartItem("Ham",1,0.00m ),
new CartItem("Bacon",2 ,0.00m),
new CartItem("Cheese",1,0.00m),
new CartItem("Bacon" , 1 ,  0.00m  )};

static  List<DiscountItem> discounts=new List<DiscountItem>() {
new DiscountItem(){ sku="Ham", DiscountAmount=0.33m},
new DiscountItem(){sku="Bacon",DiscountAmount=2.0m}};

class cartsPlus
{
public CartItem Cart { get; set; }
public int AppliedCount { get; set; }
}
public static void Main(string[] args){
int num = (from ca in discounts
join cart in carts on ca.sku equals cart.sku
group cart by ca.sku into g
select new { Sku = g.Key, Num = g.Sum(x => x.qty) }).Min(x => x.Num);

var cartsplus = carts.Select(x => new cartsPlus { Cart = x, AppliedCount = 0 }).ToList();

discounts.SelectMany(x => Enumerable.Range(1, num).Select(y => x)).ToList().ForEach(x=>{cartsPlus c=cartsplus.
First(z=> z.Cart.sku==x.sku&&z.AppliedCount<z.Cart.qty);c.AppliedCount++;c.Cart.DiscountApplied+=x.DiscountAmount;});

foreach (CartItem c in carts)
Console.WriteLine("{0}  {1}   {2}", c.sku,c.qty, c.DiscountApplied);
}
};
``````
-

OK, just for fun, here's a sort-of-LINQ solution.

It's probably nowhere near as readable or efficient as the equivalent iterative code, but it works!

``````var discountedCart = CartItems.Select(c => c);

var combinations = DiscountItems.Any()
? DiscountItems.GroupJoin(CartItems, d => d.SKU, c => c.SKU, (d, g) => g.Sum(c => c.Qty)).Min()
: 0;

if (combinations > 0)
{
var map = DiscountItems.ToDictionary(d => d.SKU, d => combinations);

discountedCart = CartItems.Select(c =>
{
int mul;
map.TryGetValue(c.SKU, out mul);

if (mul < 1)
return c;

decimal amt = DiscountItems.Single(d => d.SKU == c.SKU).DiscountAmount;
int qty = Math.Min(mul, c.Qty);

map[c.SKU] = mul - qty;
return new CartItem { SKU = c.SKU, Qty = c.Qty, DiscountApplied = amt * qty };
});
}

foreach (CartItem item in discountedCart)
{
Console.WriteLine("SKU={0} Qty={1} DiscountApplied={2}", item.SKU, item.Qty, item.DiscountApplied);
}
``````

(I suspect that if you wanted a single LINQ query with no side-effects then you could wrap it all up in an `Aggregate` call, but that would necessitate further depths of ugliness and inefficiency.)

-
``````// Here we get all items have discounted, and gets minimal count of items
// This value is number of full combinations of items discounted
var minimalNumberOfItemsDiscounted =
CartItems.Where(ci => DiscountItems.Any(di => ci.SKU == di.SKU))
.GroupBy(ci => ci.SKU)
.Min(g => g.Count());

// Now we can apply discount to each item in cart, and we know how many
// times (== minimalNumberOfItemsDiscounted) discount is applied

return CartItems
.Select(ci => new
{ CartItem = ci,
Discount = DiscountItems.FirstOrDefault(di => di.SKU == ci.SKU) })
.Select(k => {
if (k.Discount != null) {
k.CartItem.Discount =
minimalNumberOfItemsDiscounted * k.Discount.DiscountAmount;
}
return k.CartItem;
});
``````
-