5

Let say we have a class

Category
{
   ID,
   Name,
   ParentID
}

and a List

1, 'Item 1', 0
2, 'Item 2', 0
3, 'Item 3', 0
4, 'Item 1.1', 1
5, 'Item 3.1', 3
6, 'Item 1.1.1', 4
7, 'Item 2.1', 2

Can we using LINQ to render a tree like:

Item 1
 Item 1.1
  Item 1.1.1
Item 2
 Item 2.1
Item 3
 Item 3.1

Any help is appreciated!

5

Here's the "LINQ-only" version:

Func<int, int, string[]> build = null;
build = (p, n) =>
{
    return (from x in categories
            where x.ParentID == p
            from y in new[]
            {
                "".PadLeft(n)+ x.Name
            }.Union(build(x.ID, n + 1))
            select y).ToArray();
};
var lines = build(0, 0);

Yes, it's recursive LINQ.


Per NVA's request, here's the way to make all "orphan" records become root records:

Func<IEnumerable<int>, int, string[]> build = null;
build = (ps, n) =>
{
    return (from x in categories
            where ps.Contains(x.ParentID)
            from y in new[]
    {
        "".PadLeft(n)+ x.Name
    }.Union(build(new [] { x.ID }, n + 1))
            select y).ToArray();
};

var roots = (from c in categories
             join p in categories on c.ParentID equals p.ID into gps
             where !gps.Any()
             orderby c.ParentID
             select c.ParentID).Distinct();

var lines = build(roots, 0);
  • Thanks a lot for your helps. It works really well ^^ – ByulTaeng Sep 21 '10 at 13:19
  • Btw, If ParentID of an item is not in the list, it'll be excluded, could you help me again? Thanks a lot! – ByulTaeng Nov 5 '10 at 4:36
  • My answer already excludes them if the ParentID is not in the list. Are you asking for it to be included? And, if so, do you want these "orphans" to display at the root level (as if their ParentID was 0)? – Enigmativity Nov 5 '10 at 5:32
  • Yes, I want these orphans to display at the root level. Could you suggest me a solution? Thanks – ByulTaeng Nov 5 '10 at 6:57
4

These extension methods do exactly what you want:

public static partial class LinqExtensions
{
    public class Node<T>
    {
        internal Node() { }

        public int Level { get; internal set; }
        public Node<T> Parent { get; internal set; }
        public T Item { get; internal set; }
        public IList<Node<T>> Children { get; internal set; }
    }

    public static IEnumerable<Node<T>> ByHierarchy<T>(
        this IEnumerable<T> source,
        Func<T, bool> startWith, 
        Func<T, T, bool> connectBy)
    {
        return source.ByHierarchy<T>(startWith, connectBy, null);
    }

    private static IEnumerable<Node<T>> ByHierarchy<T>(
        this IEnumerable<T> source,
        Func<T, bool> startWith,
        Func<T, T, bool> connectBy,
        Node<T> parent)
    {
        int level = (parent == null ? 0 : parent.Level + 1);

        if (source == null)
            throw new ArgumentNullException("source");

        if (startWith == null)
            throw new ArgumentNullException("startWith");

        if (connectBy == null)
            throw new ArgumentNullException("connectBy");

        foreach (T value in from   item in source
                            where  startWith(item)
                            select item)
        {
            var children = new List<Node<T>>();
            Node<T> newNode = new Node<T>
            {
                Level = level,
                Parent = parent,
                Item = value,
                Children = children.AsReadOnly()
            };

            foreach (Node<T> subNode in source.ByHierarchy<T>(possibleSub => connectBy(value, possibleSub),
                                                              connectBy, newNode))
            {
                children.Add(subNode);
            }

            yield return newNode;
        }
    }

    public static void DumpHierarchy<T>(this IEnumerable<Node<T>> nodes, Func<T, string> display)
    {
        DumpHierarchy<T>(nodes, display, 0);
    }

    private static void DumpHierarchy<T>(IEnumerable<LinqExtensions.Node<T>> nodes, Func<T, string> display, int level)
    {
        foreach (var node in nodes)
        {
            for (int i = 0; i < level; i++) Console.Write("  ");
            Console.WriteLine (display(node.Item));
            if (node.Children != null)
                DumpHierarchy(node.Children, display, level + 1);
        }
    }

}

You can use them as follows:

categories.ByHierarchy(
        cat => cat.ParentId == null, // assuming ParentId is Nullable<int>
        (parent, child) => parent.Id == child.ParentId)
     .DumpHierarchy(cat => cat.Name);
0

You can use recursion:

public class Category
{
    public int ID { get; set; }
    public string Name { get; set; }
    public int ParentID { get; set; }
    public List<Category> Children { get; set; }
}

class Program
{
    static void Main()
    {
        List<Category> categories = new List<Category>()
        {
            new Category () { ID = 1, Name = "Item 1", ParentID = 0},
            new Category() { ID = 2, Name = "Item 2", ParentID = 0 },
            new Category() { ID = 3, Name = "Item 3", ParentID = 0 },
            new Category() { ID = 4, Name = "Item 1.1", ParentID = 1 },
            new Category() { ID = 5, Name = "Item 3.1", ParentID = 3 },
            new Category() { ID = 6, Name = "Item 1.1.1", ParentID = 4 },
            new Category() { ID = 7, Name = "Item 2.1", ParentID = 2 }
        };

        List<Category> hierarchy = new List<Category>();                        
        hierarchy = categories
                        .Where(c => c.ParentID == 0)
                        .Select(c => new Category() { ID = c.ID, Name = c.Name, ParentID = c.ParentID, Children = GetChildren(categories, c.ID) })
                        .ToList();

        HieararchyWalk(hierarchy);            

        Console.ReadLine();
    }        

    public static List<Category> GetChildren(List<Category> categories, int parentId)
    {            
        return categories
                .Where(c => c.ParentID == parentId)
                .Select(c => new Category { ID = c.ID, Name = c.Name, ParentID = c.ParentID, Children = GetChildren(categories, c.ID) })
                .ToList();
    }

    public static void HieararchyWalk(List<Category> hierarchy)
    {
        if (hierarchy != null)
        {
            foreach (var item in hierarchy)
            {
                Console.WriteLine(string.Format("{0} {1}", item.ID, item.Name));
                HieararchyWalk(item.Children);                    
            }
        }
    }        
}
0
 public IEnumerable<HelpPageMenuItem> GetHelpPageMenuItems()
    {
        var helpPages = (from h in Context.HelpPages select new HelpPageMenuItem{HelpPageId = h.HelpPageId, ParentHelpPageId = h.ParentHelpPageId, PageContext = h.PageContext, MenuText = h.MenuText}).ToList();
        var parents = from h in helpPages where !h.ParentHelpPageId.HasValue select PopulateChildren(h, helpPages);
        return parents.ToList();
    }

    private static HelpPageMenuItem PopulateChildren(HelpPageMenuItem helpPageMenuItem, IEnumerable<HelpPageMenuItem> helpPages)
    {
        helpPageMenuItem.ChildHelpPages =
            (from h in helpPages
             where h.ParentHelpPageId == helpPageMenuItem.HelpPageId
             select PopulateChildren(h, helpPages)).ToList();

        return helpPageMenuItem;
    }
0
   @model List<OrgChart.Models.Node>
   @{    

    Func<int?, List<OrgChart.Models.Node>, string> recuresive = null;
recuresive = (parentid, list) => string.Join("", list.Where(x => x.ParentId == parentid).Select(x => "<li>" + x.Name + "<ul>" + recuresive(x.Id, list.Where(y => y.ParentId != parentid).ToList()) + "</ul></li>"));
   }
  @Html.Raw("<ul id='org1' >" + recuresive(null, Model) + "</ul>")
  <div id="chart" class="orgChart"></div>
0
       public static List<TSource> BuildTreeView<TSource, TKey>(this List<TSource> allItems
        , Func<TSource, TKey> parentSelector, Func<TSource, TKey> childSelector, Expression<Func<TSource, List<TSource>>> childrenPropertySelector
        , Func<TSource, bool> GetRoot, List<TSource> rootList = null)
    {

        if (rootList == null)
            rootList = allItems.Where(GetRoot).ToList();
        if (rootList != null && rootList.Count > 0)
        {
            rootList.ForEach(rootItem =>
            {
                Func<TSource, bool> whereClause = x => childSelector(rootItem).Equals(parentSelector(x));
                var childrenProperty = (childrenPropertySelector.Body as MemberExpression).Member as System.Reflection.PropertyInfo;
                var childrenList = allItems.Where(whereClause).ToList();
                childrenProperty.SetValue(rootItem, childrenList);

                if (childrenList.Count > 0)
                    BuildTreeView(allItems, parentSelector, childSelector, childrenPropertySelector, GetRoot, childrenProperty.GetValue(rootItem) as List<TSource>);
            });

        }
        return rootList;
    }

//Call method

List<Channel> rootChannel = listChannel.BuildTreeView(f => f.PARENT_CODE, x => x.CODE, z => z.SubChannels, c => c.CODE == "AC");

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