22

I have a simple problem, but cant seem to find a way around it. I am using Entity Framework Core version 2.0.1 and want to eager load all my entities by default.

Example:

public class Order
{
    public int Id { get; set; }
    public string Name { get; set; }
    public int CustomerId { get; set; }
    public Customer Customer { get; set; }
}

public class Customer
{
    public int Id { get; set; } 
    public string Name { get; set; }
    public int AddressId { get; set; }
    public Address Address { get; set; }
}

public class Address
{
    public int Id { get; set; }
    public string PostCode { get; set; }
    public string City { get; set; }
}

But when I load Order entity the related entity Customer and then inside it Address is null

What i have tried:

  • Tried upgrading to version 2.1 and use LazyLoadingProxies set to false

This is just an example, I have entities with multiple nested levels and I want to load nested related data inside of a Generic Repository, so can't use Include and ThenInclude as I don't know the actual entity type when loading it.

Example:

    public virtual async Task<IEnumerable<T>> GetAllAsync(Expression<Func<T, bool>> predicate = null)
    {
        if (predicate == null)
        {
            return await Context.Set<T>().ToListAsync();
        }
        return await Context.Set<T>().Where(predicate).ToListAsync();
    }

What am I missing? Is there something wrong I am doing in the repository? Any help or pointer towards a better design (if that's what the issue is here) are appreciated.

Thanks

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  • So you set lazy loading to false, don't include the navigation properties and are wondering why the navigation properties aren't included? (what would be the point of Include if navigation properties were included by default anyhow) – Voo Mar 31 '18 at 23:58
  • Have tried marking my related properties as virtual and enabling lazy loading using proxies and also without proxies by injecting the lazy loader action in my entity constructor but to the same effect. Unless I manually use the Include and ThenInclude (which requires me to know the entity type) I can’t seem to get related data – Jinish Apr 1 '18 at 0:12
  • You are asking for a feature which doesn't exist currently. As I recall, there are requests for something like this, but I don't know if and when it will be addressed. – Ivan Stoev Apr 1 '18 at 3:27
  • Thanks for your input @IvanStoev. I thought they added a bunch of feature in the latest roll out of version 2.1. – Jinish Apr 1 '18 at 10:11
  • 1
    @Jinish Unfortunately not this one :( Here is what I found - Eager load all navigation properties #4851 (Closed), Rule-based eager load (include) #2953 (Backlog), Allow for declaring aggregates in the model (e.g. defining included properties or by some other means) #1985 (Backlog). Backlog means considered, but no concrete schedule. – Ivan Stoev Apr 1 '18 at 10:35
46

Such feature officially does not exist currently (EF Core 2.0.2 and also the incoming 2.1). It's been requested in Eager load all navigation properties #4851(Closed) and currently is tracked by Rule-based eager load (include) #2953 and Allow for declaring aggregates in the model (e.g. defining included properties or by some other means) #1985 (both in Backlog, i.e. no concrete schedule).

I can offer the following two custom extension methods:

using System;
using System.Collections.Generic;
using System.Linq;
using Microsoft.EntityFrameworkCore.Metadata;

namespace Microsoft.EntityFrameworkCore
{
    public static partial class CustomExtensions
    {
        public static IQueryable<T> Include<T>(this IQueryable<T> source, IEnumerable<string> navigationPropertyPaths)
            where T : class
        {
            return navigationPropertyPaths.Aggregate(source, (query, path) => query.Include(path));
        }

        public static IEnumerable<string> GetIncludePaths(this DbContext context, Type clrEntityType, int maxDepth = int.MaxValue)
        {
            if (maxDepth < 0) throw new ArgumentOutOfRangeException(nameof(maxDepth));
            var entityType = context.Model.FindEntityType(clrEntityType);
            var includedNavigations = new HashSet<INavigation>();
            var stack = new Stack<IEnumerator<INavigation>>();
            while (true)
            {
                var entityNavigations = new List<INavigation>();
                if (stack.Count <= maxDepth)
                {
                    foreach (var navigation in entityType.GetNavigations())
                    {
                        if (includedNavigations.Add(navigation))
                            entityNavigations.Add(navigation);
                    }
                }
                if (entityNavigations.Count == 0)
                {
                    if (stack.Count > 0)
                        yield return string.Join(".", stack.Reverse().Select(e => e.Current.Name));
                }
                else
                {
                    foreach (var navigation in entityNavigations)
                    {
                        var inverseNavigation = navigation.FindInverse();
                        if (inverseNavigation != null)
                            includedNavigations.Add(inverseNavigation);
                    }
                    stack.Push(entityNavigations.GetEnumerator());
                }
                while (stack.Count > 0 && !stack.Peek().MoveNext())
                    stack.Pop();
                if (stack.Count == 0) break;
                entityType = stack.Peek().Current.GetTargetType();
            }
        }

    }
}

The first is just a convenient way of applying multiple string base Include.

The second does the actual job of collecting all Include paths for a type using EF Core provided metadata. It's basically directed cyclic graph processing starting with the passed entity type, excluding the inverse navigations of the included paths and emitting only the paths to "leaf" nodes.

The usage in your example could be like this:

public virtual async Task<IEnumerable<T>> GetAllAsync(Expression<Func<T, bool>> predicate = null)
{
    var query = Context.Set<T>()
        .Include(Context.GetIncludePaths(typeof(T));
    if (predicate != null)
        query = query.Where(predicate);
    return await query.ToListAsync();
}
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  • 4
    Sir, you deserve a medal 🥇 – WoIIe Mar 18 '19 at 22:11
  • 2
    You certainly do deserve a medal. This is an excellent sample! I am using it to help with my understanding of iterations as well as EF core. I was hoping though that you could help me understand how the yield return line works in your GetIncludePaths method. I don't quite understand what MSDN means when they say this: "Execution is restarted from that location the next time that the iterator function is called". – Lopsided Apr 18 '19 at 20:18
  • 1
    @Lopsided Space here is limited, but I'll try. This is called iterator method. The code inside does not execute until some external code start foreach-ing it. Once the external code enters foreach, your code starts executing. When it hits some yield return statement, it returns the next element to the caller. When the caller foreach needs the next item, your code resumes at the point after yield return and continues executing until it hits another yield return or ends. The whole process ends when your code ends or the caller exits foreach (with break, return or exception). – Ivan Stoev Apr 19 '19 at 7:29
  • Oh my god. What? – Christian Findlay May 25 '19 at 4:23
  • This hurts me so much. – Christian Findlay May 25 '19 at 4:25
0

Ivan's answer is fantastic. I've adapted it slightly (using help from Chistoph's code here) just so the extension method can be chained off of the DbContext itself, in case others find that more convenient. For example, in my codebase I can write:

_commissionsContext.CommissionRulesetScopes.IncludeAll().ToListAsync();

And this will eagerly load the entire subgraph of entities for every CommissionRulesetScope:

SELECT [c].[CommissionPlanId], [c].[StartPeriod], [c].[CommissionRulesetId], [c0].[Id], [c0].[Name], [c1].[Id], [c1].[CsiScoreRuleId], [c1].[DealerOptionCommissionRuleId], [c1].[EmailCaptureRuleId], [c1].[ProductCommissionRuleId], [c1].[ProductConsistencyRuleId], [c1].[UnitCommissionRulesetId], [c2].[Id], [c2].[ConsecutiveFailurePenalty], [c2].[CurrentMonthPenalty], [c2].[Enabled], [c2].[Target], [d].[Id], [e].[Id], [e].[Enabled], [e].[Penalty], [e].[Target], [p].[Id], [p0].[Id], [p0].[CommissionBonus], [p0].[Enabled], [p0].[ProductTarget], [p0].[UnitTarget], [u].[Id], [u].[AverageCsiScoreRuleId], [u].[FinancePenetrationRuleId], [u].[GuaranteePeriodCommissionLevel], [u].[MinimumRequiredCsiReturnRate], [u].[MonthlyExpectationAttainmentRuleId], [u].[UnitCommissionTable], [a].[Id], [f].[Id], [m].[Id], [d0].[DealerOptionCommissionRuleId], [d0].[MinimumValue], [d0].[Commission], [t].[ProductCommissionRuleId], [t].[ProductTypeId], [t].[Commission], [t].[Id], [t].[Description], [t].[Key], [t0].[ProductConsistencyRuleId], [t0].[ProductMinMixRangeId], [t0].[Id], [t0].[ProductTypeId], [t0].[Id0], [t0].[Description], [t0].[Key], [t0].[ProductMinMixRangeId0], [t0].[MinimumUnitsTarget], [t0].[Target], [a0].[RuleId], [a0].[Target], [a0].[Points], [f0].[RuleId], [f0].[Target], [f0].[Points], [m0].[RuleId], [m0].[Target], [m0].[Points]
FROM [CommissionRulesetScope] AS [c]
INNER JOIN [CommissionPlan] AS [c0] ON [c].[CommissionPlanId] = [c0].[Id]
INNER JOIN [CommissionRuleset] AS [c1] ON [c].[CommissionRulesetId] = [c1].[Id]
LEFT JOIN [CsiScoreRule] AS [c2] ON [c1].[CsiScoreRuleId] = [c2].[Id]
LEFT JOIN [DealerOptionCommissionRule] AS [d] ON [c1].[DealerOptionCommissionRuleId] = [d].[Id]
LEFT JOIN [EmailCaptureRule] AS [e] ON [c1].[EmailCaptureRuleId] = [e].[Id]
LEFT JOIN [ProductCommissionRule] AS [p] ON [c1].[ProductCommissionRuleId] = [p].[Id]
LEFT JOIN [ProductConsistencyRule] AS [p0] ON [c1].[ProductConsistencyRuleId] = [p0].[Id]
LEFT JOIN [UnitCommissionRuleset] AS [u] ON [c1].[UnitCommissionRulesetId] = [u].[Id]
LEFT JOIN [AverageCsiScoreRule] AS [a] ON [u].[AverageCsiScoreRuleId] = [a].[Id]
LEFT JOIN [FinancePenetrationRule] AS [f] ON [u].[FinancePenetrationRuleId] = [f].[Id]
LEFT JOIN [MonthlyExpectationAttainmentRule] AS [m] ON [u].[MonthlyExpectationAttainmentRuleId] = [m].[Id]
LEFT JOIN [DealerOptionCommission] AS [d0] ON [d].[Id] = [d0].[DealerOptionCommissionRuleId]
LEFT JOIN (
    SELECT [p1].[ProductCommissionRuleId], [p1].[ProductTypeId], [p1].[Commission], [p2].[Id], [p2].[Description], [p2].[Key]
    FROM [ProductCommission] AS [p1]
    LEFT JOIN [ProductType] AS [p2] ON [p1].[ProductTypeId] = [p2].[Id]
) AS [t] ON [p].[Id] = [t].[ProductCommissionRuleId]
LEFT JOIN (
    SELECT [p3].[ProductConsistencyRuleId], [p3].[ProductMinMixRangeId], [p4].[Id], [p4].[ProductTypeId], [p5].[Id] AS [Id0], [p5].[Description], [p5].[Key], [p6].[ProductMinMixRangeId] AS [ProductMinMixRangeId0], [p6].[MinimumUnitsTarget], [p6].[Target]
    FROM [ProductMinMixRangeAssociation] AS [p3]
    INNER JOIN [ProductMinMixRange] AS [p4] ON [p3].[ProductMinMixRangeId] = [p4].[Id]
    INNER JOIN [ProductType] AS [p5] ON [p4].[ProductTypeId] = [p5].[Id]
    LEFT JOIN [ProductMinMixTarget] AS [p6] ON [p4].[Id] = [p6].[ProductMinMixRangeId]
) AS [t0] ON [p0].[Id] = [t0].[ProductConsistencyRuleId]
LEFT JOIN [AverageCsiScoreThreshold] AS [a0] ON [a].[Id] = [a0].[RuleId]
LEFT JOIN [FinancePenetrationThreshold] AS [f0] ON [f].[Id] = [f0].[RuleId]
LEFT JOIN [MonthlyExpectationAttainmentThreshold] AS [m0] ON [m].[Id] = [m0].[RuleId]
ORDER BY [c].[CommissionPlanId], [c].[StartPeriod], [c0].[Id], [c1].[Id], [d0].[DealerOptionCommissionRuleId], [d0].[MinimumValue], [t].[ProductCommissionRuleId], [t].[ProductTypeId], [t0].[ProductConsistencyRuleId], [t0].[ProductMinMixRangeId], [t0].[Id], [t0].[Id0], [t0].[ProductMinMixRangeId0], [t0].[MinimumUnitsTarget], [a0].[RuleId], [a0].[Target], [f0].[RuleId], [f0].[Target], [m0].[RuleId], [m0].[Target]

Here's the adaption:

public static class DbSetExtensions
{
    /// <summary>
    /// Ensures that all navigation properties (up to a certain depth) are eagerly loaded when entities are resolved from this
    /// DbSet.
    /// </summary>
    /// <returns>The queryable representation of this DbSet</returns>
    public static IQueryable<TEntity> IncludeAll<TEntity>(
        this DbSet<TEntity> dbSet,
        int maxDepth = int.MaxValue) where TEntity : class
    {
        IQueryable<TEntity> result = dbSet;
        var context = dbSet.GetService<ICurrentDbContext>().Context;
        var includePaths = GetIncludePaths<TEntity>(context, maxDepth);

        foreach (var includePath in includePaths)
        {
            result = result.Include(includePath);
        }

        return result;
    }

    /// <remarks>
    /// Adapted from https://stackoverflow.com/a/49597502/1636276
    /// </remarks>
    private static IEnumerable<string> GetIncludePaths<T>(DbContext context, int maxDepth = int.MaxValue)
    {
        if (maxDepth < 0)
            throw new ArgumentOutOfRangeException(nameof(maxDepth));

        var entityType = context.Model.FindEntityType(typeof(T));
        var includedNavigations = new HashSet<INavigation>();
        var stack = new Stack<IEnumerator<INavigation>>();

        while (true)
        {
            var entityNavigations = new List<INavigation>();

            if (stack.Count <= maxDepth)
            {
                foreach (var navigation in entityType.GetNavigations())
                {
                    if (includedNavigations.Add(navigation))
                        entityNavigations.Add(navigation);
                }
            }

            if (entityNavigations.Count == 0)
            {
                if (stack.Count > 0)
                    yield return string.Join(".", stack.Reverse().Select(e => e.Current!.Name));
            }
            else
            {
                foreach (var navigation in entityNavigations)
                {
                    var inverseNavigation = navigation.FindInverse();
                    if (inverseNavigation != null)
                        includedNavigations.Add(inverseNavigation);
                }

                stack.Push(entityNavigations.GetEnumerator());
            }

            while (stack.Count > 0 && !stack.Peek().MoveNext())
                stack.Pop();

            if (stack.Count == 0)
                break;

            entityType = stack.Peek().Current!.GetTargetType();
        }
    }
}
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0

Use .Include("Order.Customer.Address");

Supports: .NET Core 3.1.8+ for sure, but I do not know if earlier as well

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  • Please read the question well before answering. "so can't use Include..." – Gert Arnold Nov 11 at 15:45

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