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I have a class Order like

class Order
{
   IEnumerable<Item> Items { get; set; }
}

Item class looks like

class Item
{
   string SomeProperty { get; set; } 
   string SomeProperty1 { get; set; } 
   string SomeProperty2 { get; set; } 
}

Model is a list of Order like

@model IEnumerable<Order>

I want to group same Items in one order means grouping on Item.SomeProperty

I can achieve this by following (Collection list to grouped collection list using linq)

var orderedGroups = Model
    .SelectMany(order => order.Items)
    .GroupBy(order => order.ItemNo)
    .OrderByDescending(grp => grp.Count()).ToList();

With this I want to make sure all groups have the same number of items, depending on the maximum count and adding "blank" results to the groups which has lower count but I don't know how to proceed further.

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  • You might be missing a Select at the end. – vijayst Aug 20 '16 at 16:15
  • Not sure you can do this purely with linq. If you know how many you want you can use .Where count = x, but if not then you need to add some logic. What happens if you have a 6 groups with count: 33 22 11 ? – Ziv Weissman Aug 20 '16 at 19:55
  • @zivweissman if there r 6 Orders with few having 3 items few having 2 items and few having 1 item then the grouped collection will have 3 items each in all orders and some of the Orders will have one r two blank items. I need to deign a compare screen where grouped items needs to be compared and need to display blank items as well to make html look proper. – Nikhil Gupta Aug 20 '16 at 21:37
2

Requirements are quite strange, not sure of the use case, but this is how I would achieve it:

var orderedGroups = Model
    .SelectMany(order => order.Items)
    .GroupBy(order => order.ItemNo)
    .OrderByDescending(order => order.Count())
    .ToDictionary(order => order.Key, order => order.ToList());

orderedGroups will be of type Dictionary<string,List<Item>>, assuming ItemNo is a string

Fetch the max number of elements in the Descending sorted collection:

var maxElements = orderedGroups.First().Value.Count; // Max elements collection is at the top

foreach (var x in orderedGroups.Skip(1)) // Skip the processing of first collection, as that has maximum number of elements
        {       
            int yMax = maxElements - x.Value.Count ; // Count of each Item collection

            for (int y = 0; y < yMax; y++)
            {
                x.Value.Add(default(Item)); // Adding `default Item`, replace with any standard value
            }
        }

Another working version of code using Integer in place of Item:

List<int> testList = new List<int> {1,2,3,4,1,3,5,6,3,6,4,2,1,3,7,7,7,7,7,7,7};

        var orderedGroups = testList.GroupBy(x => x)
                                    .OrderByDescending(x => x.Count())
                                    .ToDictionary(x => x.Key, x => x.ToList());


        var maxElements = orderedGroups.First().Value.Count;


        foreach (var x in orderedGroups.Skip(1))
        {       
            int yMax = maxElements - x.Value.Count;

            for (int y = 0; y < yMax; y++)
            {
                x.Value.Add(0); // Adding default as 0
            }
        }


    orderedGroups.Dump(); // Linqpad print call, replace with console or similar call in the visual studio
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