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So I have a SQL table which is basically

ID, ParentID, MenuName, [Lineage, Depth]

The last two columns are auto-computed to help with searching so we can ignore them for now.

I'm creating a drop down menu system with multiple categories.

Unfortunately EF I don't think plays nice with Self referencing tables more than 1 level deep. So I'm left with a few options

1) Create query, order by depth and then create a custom class in C#, populating it one depth at a time.

2) Find some way to eager load the data in EF, I don't think it is possible for an unlimited amount of levels, only a fixed amount.

3) Some other way I'm not even sure about.

Any inputs would be welcomed!

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4 Answers 4

up vote 8 down vote accepted

I have successfully mapped hierarchical data using EF.

Take for example an Establishment entity. This can represent a company, university, or some other unit within a larger organizational structure:

public class Establishment : Entity
{
    public string Name { get; set; }
    public virtual Establishment Parent { get; set; }
    public virtual ICollection<Establishment> Children { get; set; }
    ...
}

Here is how the Parent / Children properties are mapped. This way, when you set the Parent of 1 entity, the Parent entity's Children collection is automatically updated:

// ParentEstablishment 0..1 <---> * ChildEstablishment
HasOptional(d => d.Parent)
    .WithMany(p => p.Children)
    .Map(d => d.MapKey("ParentId"))
    .WillCascadeOnDelete(false); // do not delete children when parent is deleted

Note that so far I haven't included your Lineage or Depth properties. You are right, EF doesn't work well for generating nested hierarchical queries with the above relationships. What I finally settled on was the addition of a new gerund entity, along with 2 new entity properties:

public class EstablishmentNode : Entity
{
    public int AncestorId { get; set; }
    public virtual Establishment Ancestor { get; set; }

    public int OffspringId { get; set; }
    public virtual Establishment Offspring { get; set; }

    public int Separation { get; set; }
}

public class Establishment : Entity
{
    ...
    public virtual ICollection<EstablishmentNode> Ancestors { get; set; }
    public virtual ICollection<EstablishmentNode> Offspring { get; set; }

}

While writing this up, hazzik posted an answer that is very similar to this approach. I'll continue writing up though, to provide a slightly different alternative. I like to make my Ancestor and Offspring gerund types actual entity types because it helps me get the Separation between the Ancestor and Offspring (what you referred to as Depth). Here is how I mapped these:

private class EstablishmentNodeOrm : EntityTypeConfiguration<EstablishmentNode>
{
    internal EstablishmentNodeOrm()
    {
        ToTable(typeof(EstablishmentNode).Name);
        HasKey(p => new { p.AncestorId, p.OffspringId });
    }
}

... and finally, the identifying relationships in the Establishment entity:

// has many ancestors
HasMany(p => p.Ancestors)
    .WithRequired(d => d.Offspring)
    .HasForeignKey(d => d.OffspringId)
    .WillCascadeOnDelete(false);

// has many offspring
HasMany(p => p.Offspring)
    .WithRequired(d => d.Ancestor)
    .HasForeignKey(d => d.AncestorId)
    .WillCascadeOnDelete(false);

Also, I did not use a sproc to update the node mappings. Instead we have a set of internal commands that will derive / compute the Ancestors and Offspring properties based on the Parent & Children properties. However ultimately, you end up being able to do some very similar querying as in hazzik's answer:

// load the entity along with all of its offspring
var establishment = dbContext.Establishments
    .Include(x => x.Offspring.Select(y => e.Offspring))
    .SingleOrDefault(x => x.Id == id);

The reason for the bridge entity between the main entity and its Ancestors / Offspring is again because this entity lets you get the Separation. Also, by declaring it as an identifying relationship, you can remove nodes from the collection without having to explicitly call DbContext.Delete() on them.

// load all entities that are more than 3 levels deep
var establishments = dbContext.Establishments
    .Where(x => x.Ancestors.Any(y => y.Separation > 3));
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I really liked your approach! Out of curiosity, is it a known method or is it documented somewhere? I'm considering implementing this in a system, and I have already tested insertion and remotion of elements and started considering how to move elements around. I'd like to know in what kind of cenario that approach fits well. –  Arthur Nunes Apr 19 '13 at 20:09
    
It's documented here in this answer, I have not read about this approach before or anywhere else -- I just made it up as I developed. This fits well in a scenario where you can encapsulate the operations which will delete nodes and change the ParentId's. Within those operations, you will have to derive the node hierarchy. –  danludwig Apr 19 '13 at 20:32
    
Ok, thank you, danludwig. –  Arthur Nunes Apr 19 '13 at 20:35
    
How are you setting the Separation value? –  Chris Pratt Dec 27 '13 at 17:13
    
@ChrisPratt, using a special recursive algorithm in the code where the ParentId property is allowed to be changed. The separations, as well as the ancestor & offspring properties, are set in this one method. As the method recurses, the separation value is simply step incremented in a variable. –  danludwig Dec 27 '13 at 17:48
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You could use supporting hierarchy table to do eager loading of unlimited levels of tree.

So, you need to add two collections Ancestors and Descendants, both collection should be mapped as many-to-many to supporting table.

public class Tree 
{
    public virutal Tree Parent {get;set;}
    public virtual ICollection<Tree> Children {get;set;}
    public virtual ICollection<Tree> Ancestors {get;set;}
    public virtual ICollection<Tree> Descendants {get;set;}
}

Ancestors will contain all ancestors (parent, grand-parent, grand-grand-parent, etc.) of the entity and Descendants will contain all the descendants (children, grand-children, grand-grand-children, etc) of the entity.

Now you have to map it with EF Code First:

public class TreeConfiguration : EntityTypeConfiguration<Tree>
{
    public TreeConfiguration()
    {
        HasOptional(x => x.Parent)
            .WithMany(x => x.Children)
            .Map(m => m.MapKey("PARENT_ID"));

        HasMany(x => x.Children)
            .WithOptional(x => x.Parent);

        HasMany(x => x.Ancestors)
            .WithMany(x => x.Descendants)
            .Map(m => m.ToTable("Tree_Hierarchy").MapLeftKey("PARENT_ID").MapRightKey("CHILD_ID"));

        HasMany(x => x.Descendants)
            .WithMany(x => x.Ancestors)
            .Map(m => m.ToTable("Tree_Hierarchy").MapLeftKey("CHILD_ID").MapRightKey("PARENT_ID"));
    }    
}

Now with this structure you could do eager fetch like following

context.Trees.Include(x => x.Descendants).Where(x => x.Id == id).SingleOrDefault()

This query will load entity with id and all of it descenadnts.

You could populate the supporting table with following stored procedure:

CREATE PROCEDURE [dbo].[FillHierarchy] (@table_name nvarchar(MAX), @hierarchy_name nvarchar(MAX))
AS
BEGIN
    DECLARE @sql nvarchar(MAX), @id_column_name nvarchar(MAX)
    SET @id_column_name = '[' + @table_name + '_ID]'
    SET @table_name = '[' + @table_name + ']'
    SET @hierarchy_name = '[' + @hierarchy_name + ']'

    SET @sql = ''
    SET @sql = @sql + 'WITH Hierachy(CHILD_ID, PARENT_ID) AS ( '
    SET @sql = @sql + 'SELECT ' + @id_column_name + ', [PARENT_ID] FROM ' + @table_name + ' e '
    SET @sql = @sql + 'UNION ALL '
    SET @sql = @sql + 'SELECT e.' + @id_column_name + ', e.[PARENT_ID] FROM ' + @table_name + ' e '
    SET @sql = @sql + 'INNER JOIN Hierachy eh ON e.' + @id_column_name + ' = eh.[PARENT_ID]) '
    SET @sql = @sql + 'INSERT INTO ' + @hierarchy_name + ' ([CHILD_ID], [PARENT_ID]) ( '
    SET @sql = @sql + 'SELECT [CHILD_ID], [PARENT_ID] FROM Hierachy WHERE [PARENT_ID] IS NOT NULL '
    SET @sql = @sql + ') '

    EXECUTE (@sql)
END
GO

Or even you could map supporting table to a view:

CREATE VIEW [Tree_Hierarchy]
AS
    WITH Hierachy (CHILD_ID, PARENT_ID) 
    AS 
    (
        SELECT [MySuperTree_ID], [PARENT_ID] FROM [MySuperTree] AS e
        UNION ALL
        SELECT e.[MySuperTree_ID], e.[PARENT_ID] FROM [MySuperTree] AS e 
            INNER JOIN Hierachy AS eh ON e.[MySuperTree_ID] = eh.[PARENT_ID]
    )

    SELECT [CHILD_ID], [PARENT_ID] FROM Hierachy WHERE [PARENT_ID] IS NOT NULL
GO
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Is there any acceptable way to achieve this in Model First development? I ended up calling EF using Includes' in a recursive loop to get the entire hierarchy loaded :( –  Ε Г И І И О May 27 '13 at 14:45
1  
I can't get the above solution to work in EF5. My "Descendants" collection only contains my Children, not all nodes beneath me (ie Children, Grand Children, Great-Grand....and so on). My Hierarchy-view is correctly showing the entire tree with parent/child keys, but this isn't reflected in the Descendants collection. Any ideas? –  Dave R Oct 8 '13 at 17:04
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I've already spent a while trying to fix a bug in your solution. The stored procedure really don't generate children, grandchildren, etc. Below you will find fixed stored procedure:

CREATE PROCEDURE dbo.UpdateHierarchy AS
BEGIN
  DECLARE @sql nvarchar(MAX)

  SET @sql = ''
  SET @sql = @sql + 'WITH Hierachy(ChildId, ParentId) AS ( '
  SET @sql = @sql + 'SELECT t.Id, t.ParentId FROM dbo.Tree t '
  SET @sql = @sql + 'UNION ALL '
  SET @sql = @sql + 'SELECT h.ChildId, t.ParentId FROM dbo.Tree t '
  SET @sql = @sql + 'INNER JOIN Hierachy h ON t.Id = h.ParentId) '
  SET @sql = @sql + 'INSERT INTO dbo.TreeHierarchy (ChildId, ParentId) ( '
  SET @sql = @sql + 'SELECT DISTINCT ChildId, ParentId FROM Hierachy WHERE ParentId IS NOT NULL '
  SET @sql = @sql + 'EXCEPT SELECT t.ChildId, t.ParentId FROM dbo.TreeHierarchy t '
  SET @sql = @sql + ') '

  EXECUTE (@sql)
END

Mistake: wrong reference. Translating @hazzik code it was:

  SET @sql = @sql + 'SELECT t.ChildId, t.ParentId FROM dbo.Tree t '

but should be

  SET @sql = @sql + 'SELECT h.ChildId, t.ParentId FROM dbo.Tree t '

also I've added code that allows you to update TreeHierarchy table not only when you will populate it.

  SET @sql = @sql + 'EXCEPT SELECT t.ChildId, t.ParentId FROM dbo.TreeHierarchy t '

And the magic. This procedure or rather TreeHierarchy allows you to load Children just by including Ancestors (not Children and not Descendants).

 using (var context = new YourDbContext())
 {
      rootNode = context.Tree
           .Include(x => x.Ancestors)
           .SingleOrDefault(x => x.Id == id);
 } 

Now the YourDbContext will return a rootNode with loaded children, children of rootName's children (grandchildren), and so on.

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I knew that there must be something wrong with this solution. It is not simple. Using this solution, EF6 require another package of hacks to manage a simple tree (fe. deletions). So finally I've found a simple solution but combined with this approach.

First of all leave entity simple: just Parent and list of Children is enough. Also mapping should be simple:

 HasOptional(x => x.Parent)
    .WithMany(x => x.Children)
    .Map(m => m.MapKey("ParentId"));

 HasMany(x => x.Children)
    .WithOptional(x => x.Parent);

Then add migration (code first: migrations: package console: Add-Migration Hierarchy) or in other ways a stored procedure:

CREATE PROCEDURE [dbo].[Tree_GetChildren] (@Id int) AS
BEGIN
WITH Hierachy(ChildId, ParentId) AS (
    SELECT ts.Id, ts.ParentId 
        FROM med.MedicalTestSteps ts
    UNION ALL 
    SELECT h.ChildId, ts.ParentId 
        FROM med.MedicalTestSteps ts
        INNER JOIN Hierachy h ON ts.Id = h.ParentId
) 
SELECT h.ChildId
    FROM Hierachy h
    WHERE h.ParentId = @Id
END

Then when you will try to receive your tree nodes from database just do it in two steps:

//Get children IDs
var sql = string.Format(EXEC Tree_GetChildren {0}, rootNodeId);
var children = context.Database.SqlQuery<int>(sql).ToList<int>();

//Get root node and all it's children
var rootNode = _context.TreeNodes
                    .Include(s => s.Children)
                    .Where(s => s.Id == id || children.Any(c => s.Id == c))
                    .ToList() //MUST - get all children from database then get root
                    .FirstOrDefault(s => s.Id == id);

It all. This query helps you to get a root node and load all children. Without playing with introducing Ancestors and Descendants.

Remember also when you will try to save sub-node, then do it just this way:

var node = new Node { ParentId = rootNode }; //Or null, if you want node become a root
context.TreeNodess.Add(node);
context.SaveChanges();

Do it that way, not by adding children to root node.

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