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Service Locate or Create Objects Defined in a Fully Qualified Type Name Field in Sitecore

<TL;DR>

This is — without a doubt — the longest blog post I have ever written — and hopefully to ever write as it nearly destroyed me 😉 — so will distill the main points in this TL;DR synopsis.

Most bits in Sitecore Experience Forms use objects/service class instances sourced from the Sitecore IoC container but not all. Things not sourced from the Sitecore IoC container are defined on Items in the following folders:

.

Why?

¯\_(ツ)_/¯

This is most likely due to their fully qualified type names being defined in a type field on Items contained in these folders, and sourcing these from the Sitecore IoC is not a thing OOTB in Sitecore as far as I am aware (reflection is used to create them):

Moreover, this is the same paradigm found in Web Forms for Marketers (WFFM) for some of its parts (Save Actions are an example).

Well, this paradigm bothers me a lot — I strongly feel that virtually everything should be sourced from the Sitecore IoC container as it promotes SOLID principles, a discussion I will leave for another time — so went ahead and built a system of Sitecore pipelines and service classes to:

  1. Get the fully qualified type name string out of a field of an Item.
  2. Resolve the Type from the string from #1.
  3. Try to find the Type in the Sitecore IoC container using Service Locator (before whinging about using Service Locator for this, keep in mind that it would be impossible to inject everything from the IoC container into a class instance’s constructor in order to find it). If found, return to the caller. Otherwise, proceed to #4.
  4. Create an instance of the Type using Reflection. Return the result to the caller.

Most of the code in the solution that follows are classes which serve as custom pipeline processors for 5 custom pipelines. Pipelines in Sitecore — each being an embodiment of the chain-of-responsibility pattern — are extremely flexible and extendable, hence the reason for going with this approach.

I plan on putting this solution up on GitHub in coming days (or weeks depending on timing) so it is more easily digestible than in a blost post. For now, Just have a scan of the code below.

Note: This solution is just a Proof of concept (PoC). I have not rigorously tested this solution; have no idea what its performance is nor the performance impact it may have; and definitely will not be held responsible if something goes wrong if you decided to use this code in any of your solutions. Use at your own risk!

</TL;DR>

Now that we have that out of the way, let’s jump right into it.

I first created the following abstract class to serve as the base for all pipeline processors in this solution:

using Sitecore.Pipelines;

namespace Sandbox.Foundation.ObjectResolution.Pipelines
{
	public abstract class ResolveProcessor<TPipelineArgs> where TPipelineArgs : PipelineArgs
	{
		public void Process(TPipelineArgs args)
		{
			if (!CanProcess(args))
			{
				return;
			}

			Execute(args);
		}

		protected virtual bool CanProcess(TPipelineArgs args) => args != null;

		protected virtual void AbortPipeline(TPipelineArgs args) => args?.AbortPipeline();

		protected virtual void Execute(TPipelineArgs args)
		{
		}
	}
}

The Execute() method on all pipeline processors will only run when the processor’s CanProcess() method returns true. Also, pipeline processors have the ability to abort the pipeline where they are called.

I then created the following abstract class for all service classes which call a pipeline to “resolve” a particular thing:

using Sitecore.Abstractions;
using Sitecore.Pipelines;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers
{
	public abstract class PipelineObjectResolver<TArguments, TPipelineArguemnts, TResult> where TPipelineArguemnts : PipelineArgs
	{
		private readonly BaseCorePipelineManager _corePipelineManager;

		protected PipelineObjectResolver(BaseCorePipelineManager corePipelineManager)
		{
			_corePipelineManager = corePipelineManager;
		}

		public TResult Resolve(TArguments arguments)
		{
			TPipelineArguemnts args = CreatePipelineArgs(arguments);
			RunPipeline(GetPipelineName(), args);
			return GetObject(args);
		}

		protected abstract TResult GetObject(TPipelineArguemnts args);

		protected abstract TPipelineArguemnts CreatePipelineArgs(TArguments arguments);

		protected abstract string GetPipelineName();

		protected virtual void RunPipeline(string pipelineName, PipelineArgs args) => _corePipelineManager.Run(pipelineName, args);
	}
}

Each service class will “resolve” a particular thing with arguments passed to their Resolve() method — these service class’ Resolve() method will take in a TArguments type which serves as the input arguments for it. They will then delegate to a pipeline via the RunPipeline() method to do the resolving. Each will also parse the results returned by the pipeline via the GetObject() method.

Moving forward in this post, I will group each resolving pipeline with their service classes under a <pipeline name /> section.

<resolveItem />

I then moved on to creating a custom pipeline to “resolve” a Sitecore Item. The following class serves as its arguments data transfer object (DTO):

using System.Collections.Generic;
using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;
using Sitecore.Pipelines;

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem
{
	public class ResolveItemArgs : PipelineArgs
	{
		public Database Database { get; set; }

		public string ItemPath { get; set; }

		public Language Language { get; set; }

		public IList<IItemResolver> ItemResolvers { get; set; } = new List<IItemResolver>();

		public Item Item { get; set; }
	}
}

The resolution of an Item will be done by a collection of IItemResolver instances — these are defined further down in this post — which ultimately do the resolution of the Item.

Next, I created the following arguments class for IItemResolver instances:

using Sitecore.Data;
using Sitecore.Globalization;

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers
{
	public class ItemResolverArguments
	{
		public Database Database { get; set; }

		public Language Language { get; set; }

		public string ItemPath { get; set; }
	}
}

Since I hate calling the “new” keyword directly on classes, I created the following factory interface which will construct the argument objects for both the pipeline and service classes for resolving an Item:

using Sitecore.Data;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ItemResolvers
{
	public interface IItemResolverArgumentsFactory
	{
		ItemResolverArguments CreateItemResolverArguments(ResolveTypeArgs args);

		ItemResolverArguments CreateItemResolverArguments(ResolveItemArgs args);

		ItemResolverArguments CreateItemResolverArguments(Database database = null, Language language = null, string itemPath = null);

		ResolveItemArgs CreateResolveItemArgs(ItemResolverArguments arguments);

		ResolveItemArgs CreateResolveItemArgs(Database database = null, Language language = null, string itemPath = null);
	}
}

Here is the class that implements the interface above:

using Sitecore.Data;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ItemResolvers
{
	public class ItemResolverArgumentsFactory : IItemResolverArgumentsFactory
	{
		public ItemResolverArguments CreateItemResolverArguments(ResolveTypeArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateItemResolverArguments(args.Database, args.Language, args.ItemPath);
		}

		public ItemResolverArguments CreateItemResolverArguments(ResolveItemArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateItemResolverArguments(args.Database, args.Language, args.ItemPath);
		}

		public ItemResolverArguments CreateItemResolverArguments(Database database = null, Language language = null, string itemPath = null)
		{
			return new ItemResolverArguments
			{
				Database = database,
				Language = language,
				ItemPath = itemPath
			};
		}

		public ResolveItemArgs CreateResolveItemArgs(ItemResolverArguments arguments)
		{
			if (arguments == null)
			{
				return null;
			}

			return CreateResolveItemArgs(arguments.Database, arguments.Language, arguments.ItemPath);
		}

		public ResolveItemArgs CreateResolveItemArgs(Database database = null, Language language = null, string itemPath = null)
		{
			return new ResolveItemArgs
			{
				Database = database,
				Language = language,
				ItemPath = itemPath
			};
		}
	}
}

It just creates argument types for the pipeline and service classes.

The following interface is for classes that “resolve” Items based on arguments set on an ItemResolverArguments instance:

using Sitecore.Data.Items;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers
{
	public interface IItemResolver
	{
		Item Resolve(ItemResolverArguments arguments);
	}
}

I created a another interface for an IItemResolver which resolves an Item from a Sitecore Database:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers
{
	public interface IDatabaseItemResolver : IItemResolver
	{
	}
}

The purpose of this interface is so I can register it and the following class which implements it in the Sitecore IoC container:

using Sitecore.Data.Items;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers
{
	public class DatabaseItemResolver : IDatabaseItemResolver
	{
		public Item Resolve(ItemResolverArguments arguments)
		{
			if (!CanResolveItem(arguments))
			{
				return null;
			}

			if(arguments.Language == null)
			{
				return arguments.Database.GetItem(arguments.ItemPath);
			}

			return arguments.Database.GetItem(arguments.ItemPath, arguments.Language);
		}

		protected virtual bool CanResolveItem(ItemResolverArguments arguments) => arguments != null && arguments.Database != null && !string.IsNullOrWhiteSpace(arguments.ItemPath);
	}
}

The instance of the class above will return a Sitecore Item if a Database and Item path (this can be an Item ID) are supplied via the ItemResolverArguments instance passed to its Reolve() method.

Now, let’s start constructing the processors for the pipeline:

First, I created an interface and class for adding a “default” IItemResolver to a collection of IItemResolver defined on the pipeline’s arguments object:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.AddDefaultItemResolverProcessor
{
	public interface IAddDefaultItemResolver
	{
		void Process(ResolveItemArgs args);
	}
}
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.AddDefaultItemResolverProcessor
{
	public class AddDefaultItemResolver : ResolveProcessor<ResolveItemArgs>, IAddDefaultItemResolver
	{
		private readonly IDatabaseItemResolver _databaseItemResolver;

		public AddDefaultItemResolver(IDatabaseItemResolver databaseItemResolver)
		{
			_databaseItemResolver = databaseItemResolver;
		}

		protected override bool CanProcess(ResolveItemArgs args) => base.CanProcess(args) && args.ItemResolvers != null;

		protected override void Execute(ResolveItemArgs args) => args.ItemResolvers.Add(GetTypeResolver());

		protected virtual IItemResolver GetTypeResolver() => _databaseItemResolver;
	}
}

In the above class, I’m injecting the IDatabaseItemResolver instance — this was shown further up in this post — into the constructor of this class, and then adding it to the collection of resolvers.

I then created the following interface and implementation class to doing the “resolving” of the Item:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.ResolveItemProcessor
{
	public interface IResolveItem
	{
		void Process(ResolveItemArgs args);
	}
}
using System.Linq;

using Sitecore.Data.Items;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.ResolveItemProcessor
{
	public class ResolveItem : ResolveProcessor<ResolveItemArgs>, IResolveItem
	{
		private readonly IItemResolverArgumentsFactory _itemResolverArgumentsFactory;
		

		public ResolveItem(IItemResolverArgumentsFactory itemResolverArgumentsFactory)
		{
			_itemResolverArgumentsFactory = itemResolverArgumentsFactory;
		}

		protected override bool CanProcess(ResolveItemArgs args) => base.CanProcess(args) && args.Database != null && !string.IsNullOrWhiteSpace(args.ItemPath) && args.ItemResolvers.Any();

		protected override void Execute(ResolveItemArgs args) => args.Item = GetItem(args);

		protected virtual Item GetItem(ResolveItemArgs args)
		{
			ItemResolverArguments arguments = CreateItemResolverArguments(args);
			if (arguments == null)
			{
				return null;
			}

			foreach (IItemResolver resolver in args.ItemResolvers)
			{
				Item item = resolver.Resolve(arguments);
				if (item != null)
				{
					return item;
				}
			}

			return null;
		}

		protected virtual ItemResolverArguments CreateItemResolverArguments(ResolveItemArgs args) => _itemResolverArgumentsFactory.CreateItemResolverArguments(args);
	}
}

The class above just iterates over all IItemResolver instances on the PipelineArgs instance; passes an ItemResolverArguments instance the Resolve() method on each — the ItemResolverArguments instance is created from a factory — and returns the first Item found by one of the IItemResolver instances. If none were found, null is returned.

Now, we need to create a service class that calls the custom pipeline. I created the following class to act as a settings class for the service.

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers
{
	public class ItemResolverServiceSettings
	{
		public string ResolveItemPipelineName { get; set; }
	}
}

An instance of this class will be injected into the service — the instance is created by the Sitecore Configuration Factory — and its ResolveItemPipelineName property will contain a value from Sitecore Configuration (see the Sitecore patch configuration file towards the bottom of this blog post).

I then created the following interface for the service — it’s just another IItemResolver — so I can register it in the Sitecore IoC container:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers
{
	public interface IItemResolverService : IItemResolver
	{
	}
}

The following class implements the interface above:

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;
using Sitecore.Abstractions;
using Sitecore.Data.Items;

using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ItemResolvers;


using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers
{
	public class ItemResolverService : PipelineObjectResolver<ItemResolverArguments, ResolveItemArgs, Item>, IItemResolverService
	{
		private readonly ItemResolverServiceSettings _settings;
		private readonly IItemResolverArgumentsFactory _itemResolverArgumentsFactory;

		public ItemResolverService(ItemResolverServiceSettings settings, IItemResolverArgumentsFactory itemResolverArgumentsFactory, BaseCorePipelineManager corePipelineManager)
			: base(corePipelineManager)
		{
			_settings = settings;
			_itemResolverArgumentsFactory = itemResolverArgumentsFactory;
		}

		protected override Item GetObject(ResolveItemArgs args)
		{
			return args.Item;
		}

		protected override ResolveItemArgs CreatePipelineArgs(ItemResolverArguments arguments) => _itemResolverArgumentsFactory.CreateResolveItemArgs(arguments);

		protected override string GetPipelineName() => _settings.ResolveItemPipelineName;
	}
}

The above class subclasses the abstract PipelineObjectResolver class I had shown further above in this post. Most of the magic happens in that base class — for those interested in design patterns, this is an example of the Template Method pattern if you did not know — and all subsequent custom pipeline wrapping service classes will follow this same pattern.

I’m not going to go much into detail on the above class as it should be self-evident on what’s happening after looking at the PipelineObjectResolver further up in this post.

<resolveType />

I then started code for the next pipeline — a pipeline to resolve Types.

I created the following PipelineArgs subclass class whose instances will serve as arguments to this new pipeline:

using System;
using System.Collections.Generic;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;
using Sitecore.Pipelines;

using Sandbox.Foundation.ObjectResolution.Services.Cachers;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType
{
	public class ResolveTypeArgs : PipelineArgs
	{
		public Database Database { get; set; }

		public string ItemPath { get; set; }

		public Language Language { get; set; }

		public IItemResolver ItemResolver { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public IList<ITypeResolver> TypeResolvers { get; set; } = new List<ITypeResolver>();

		public ITypeCacher TypeCacher { get; set; }

		public Type Type { get; set; }

		public bool UseTypeCache { get; set; }
	}
}

I then created the following class to serve as an arguments object for services that will resolve types:

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers
{
	public class TypeResolverArguments
	{
		public Database Database { get; set; }

		public Language Language { get; set; }

		public string ItemPath { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public bool UseTypeCache { get; set; }
	}
}

As I had done for the previous resolver, I created a factory to create arguments for both the PipelineArgs and arguments used by the service classes. Here is the interface for that factory class:

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers
{
	public interface ITypeResolverArgumentsFactory
	{
		TypeResolverArguments CreateTypeResolverArguments(ResolveObjectArgs args);

		TypeResolverArguments CreateTypeResolverArguments(LocateObjectArgs args);

		TypeResolverArguments CreateTypeResolverArguments(CreateObjectArgs args);

		TypeResolverArguments CreateTypeResolverArguments(ResolveTypeArgs args);

		TypeResolverArguments CreateTypeResolverArguments(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, bool useTypeCache = false);

		ResolveTypeArgs CreateResolveTypeArgs(TypeResolverArguments arguments);

		ResolveTypeArgs CreateResolveTypeArgs(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, bool useTypeCache = false);
	}
}

The following class implements the interface above:

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers
{
	public class TypeResolverArgumentsFactory : ITypeResolverArgumentsFactory
	{
		public TypeResolverArguments CreateTypeResolverArguments(ResolveObjectArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateTypeResolverArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.UseTypeCache);
		}
		
		public TypeResolverArguments CreateTypeResolverArguments(LocateObjectArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateTypeResolverArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.UseTypeCache);
		}

		public TypeResolverArguments CreateTypeResolverArguments(CreateObjectArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateTypeResolverArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.UseTypeCache);
		}

		public TypeResolverArguments CreateTypeResolverArguments(ResolveTypeArgs args)
		{
			return CreateTypeResolverArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.UseTypeCache);
		}

		public TypeResolverArguments CreateTypeResolverArguments(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, bool useTypeCache = false)
		{
			return new TypeResolverArguments
			{
				Database = database,
				Language = language,
				ItemPath = itemPath,
				Item = item,
				TypeFieldName = typeFieldName,
				TypeName = typeName,
				UseTypeCache = useTypeCache
			};
		}

		public ResolveTypeArgs CreateResolveTypeArgs(TypeResolverArguments arguments)
		{
			if (arguments == null)
			{
				return null;
			}

			return CreateResolveTypeArgs(arguments.Database, arguments.Language, arguments.ItemPath, arguments.Item, arguments.TypeFieldName, arguments.TypeName, arguments.UseTypeCache);
		}

		public ResolveTypeArgs CreateResolveTypeArgs(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, bool useTypeCache = false)
		{
			return new ResolveTypeArgs
			{
				Database = database,
				Language = language,
				ItemPath = itemPath,
				Item = item,
				TypeFieldName = typeFieldName,
				TypeName = typeName,
				UseTypeCache = useTypeCache
			};
		}
	}
}

I’m not going to discuss much on the class above — it just creates instances of TypeResolverArguments and ResolveTypeArgs based on a variety of things provided to each method.

I then created the following interface for a pipeline processor to resolve an Item and set it on the passed PipelineArgs instance if one wasn’t provided by the caller or set by another processor:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetItemResolverProcessor
{
	public interface ISetItemResolver
	{
		void Process(ResolveTypeArgs args);
	}
}

The following class implements the interface above:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetItemResolverProcessor
{
	public class SetItemResolver : ResolveProcessor<ResolveTypeArgs>, ISetItemResolver
	{
		private readonly IItemResolverService _itemResolverService;

		public SetItemResolver(IItemResolverService itemResolverService)
		{
			_itemResolverService = itemResolverService;
		}

		protected override bool CanProcess(ResolveTypeArgs args) => base.CanProcess(args) && args.Database != null && !string.IsNullOrWhiteSpace(args.ItemPath);

		protected override void Execute(ResolveTypeArgs args) => args.ItemResolver = GetItemResolver();

		protected virtual IItemResolver GetItemResolver() => _itemResolverService;
	}
}

In the class above, I’m injecting an instance of a IItemResolverService into its constructor, and setting it on the ItemResolver property of the ResolveTypeArgs instance.

Does this IItemResolverService interface look familiar? It should as it’s the IItemResolverService defined further up in this post which calls the <resolveItem /> pipeline.

Now we need a processor to resolve the Item. The following interface and class do this:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.ResolveTypeProcessor
{
	public interface IResolveItem
	{
		void Process(ResolveTypeArgs args);
	}
}
using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ItemResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.ResolveTypeProcessor
{
	public class ResolveItem : ResolveProcessor<ResolveTypeArgs>, IResolveItem
	{
		private readonly IItemResolverArgumentsFactory _itemResolverArgumentsFactory;

		public ResolveItem(IItemResolverArgumentsFactory itemResolverArgumentsFactory)
		{
			_itemResolverArgumentsFactory = itemResolverArgumentsFactory;
		}

		protected override bool CanProcess(ResolveTypeArgs args) => base.CanProcess(args) && args.Database != null && args.ItemResolver != null;

		protected override void Execute(ResolveTypeArgs args) => args.Item = args.ItemResolver.Resolve(CreateTypeResolverArguments(args));

		protected virtual ItemResolverArguments CreateTypeResolverArguments(ResolveTypeArgs args) => _itemResolverArgumentsFactory.CreateItemResolverArguments(args);
	}
}

The class above just delegates to the IItemResolver instance on the ResolveTypeArgs instance to resolve the Item.

Next, we need a processor to get the fully qualified type name from the Item. The following interface and class are for a processor that does just that:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetTypeNameProcessor
{
	public interface ISetTypeName
	{
		void Process(ResolveTypeArgs args);
	}
}
namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetTypeNameProcessor
{
	public class SetTypeName : ResolveProcessor<ResolveTypeArgs>, ISetTypeName
	{
		protected override bool CanProcess(ResolveTypeArgs args) => base.CanProcess(args) && args.Item != null && !string.IsNullOrWhiteSpace(args.TypeFieldName);

		protected override void Execute(ResolveTypeArgs args) => args.TypeName = args.Item[args.TypeFieldName];
	}
}

The class above just gets the value from the field where the fully qualified type is defined — the name of the field where the fully qualified type name is defined should be set by the caller of this pipeline.
I then defined the following interface and class which will sort out what the Type object is based on a fully qualified type name passed to it:

using System;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers
{
	public interface ITypeResolver
	{
		Type Resolve(TypeResolverArguments arguments);
	}
}

I then created the following interface for a service class that will delegate to Sitecore.Reflection.ReflectionUtil to get a Type with a provided fully qualified type name:

using System;

namespace Sandbox.Foundation.ObjectResolution.Services.Reflection
{
	public interface IReflectionUtilService
	{
		Type GetTypeInfo(string type);

		object CreateObject(Type type);

		object CreateObject(Type type, object[] parameters);
	}
}

Here’s the class that implements the interface above:

using System;

using Sitecore.Reflection;

namespace Sandbox.Foundation.ObjectResolution.Services.Reflection
{
	public class ReflectionUtilService : IReflectionUtilService
	{
		public Type GetTypeInfo(string type)
		{
			return ReflectionUtil.GetTypeInfo(type);
		}

		public object CreateObject(Type type)
		{
			return ReflectionUtil.CreateObject(type);
		}

		public object CreateObject(Type type, object[] parameters)
		{
			return ReflectionUtil.CreateObject(type, parameters);
		}
	}
}

The class above also creates objects via the ReflectionUtil static class with a passed type and constructor arguments — this will be used in the <createObject /> pipeline further down in this post.

I then defined the following interface for a class that will leverage the IReflectionUtilService service above:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers
{
	public interface IReflectionTypeResolver : ITypeResolver
	{
	}
}

This is the class that implements the interface above:

using System;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Reflection;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers
{
	public class ReflectionTypeResolver : IReflectionTypeResolver
	{
		private readonly IReflectionUtilService _reflectionUtilService;

		public ReflectionTypeResolver(IReflectionUtilService reflectionUtilService)
		{
			_reflectionUtilService = reflectionUtilService;
		}

		public Type Resolve(TypeResolverArguments arguments)
		{
			if (string.IsNullOrWhiteSpace(arguments?.TypeName))
			{
				return null;
			}

			return GetTypeInfo(arguments.TypeName);
		}

		protected virtual Type GetTypeInfo(string typeName) => _reflectionUtilService.GetTypeInfo(typeName);
	}
}

The class above just delegates to the IReflectionUtilService to get the Type with the supplied fully qualified type name.

I then created the following interface and class to represent a pipeline processor to add the ITypeResolver above to the collection of ITypeResolver on the ResolveTypeArgs instance passed to it:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.AddDefaultTypeResolverProcessor
{
	public interface IAddDefaultTypeResolver
	{
		void Process(ResolveTypeArgs args);
	}
}
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.AddDefaultTypeResolverProcessor
{
	public class AddDefaultTypeResolver : ResolveProcessor<ResolveTypeArgs>, IAddDefaultTypeResolver
	{
		private readonly IReflectionTypeResolver _reflectionTypeResolver;

		public AddDefaultTypeResolver(IReflectionTypeResolver reflectionTypeResolver)
		{
			_reflectionTypeResolver = reflectionTypeResolver;
		}

		protected override bool CanProcess(ResolveTypeArgs args) => base.CanProcess(args) && args.TypeResolvers != null;

		protected override void Execute(ResolveTypeArgs args) => args.TypeResolvers.Add(GetTypeResolver());

		protected virtual ITypeResolver GetTypeResolver() => _reflectionTypeResolver;
	}
}

There isn’t much going on in the class above. The Execute() method just adds the IReflectionTypeResolver to the TypeResolvers collection.

When fishing through the Sitecore Experience Forms assemblies, I noticed the OOTB code was “caching” Types it had resolved from Type fields.. I decided to employ the same approach, and defined the following interface for an object that caches Types:

using System;

namespace Sandbox.Foundation.ObjectResolution.Services.Cachers
{
	public interface ITypeCacher
	{
		void AddTypeToCache(string typeName, Type type);

		Type GetTypeFromCache(string typeName);
	}
}

Here is the class that implements the interface above:

using System;
using System.Collections.Concurrent;

namespace Sandbox.Foundation.ObjectResolution.Services.Cachers
{
	public class TypeCacher : ITypeCacher
	{
		private static readonly ConcurrentDictionary<string, Type> TypeCache = new ConcurrentDictionary<string, Type>();

		public void AddTypeToCache(string typeName, Type type)
		{
			if (string.IsNullOrWhiteSpace(typeName) || type == null)
			{
				return;
			}

			TypeCache.TryAdd(typeName, type);
		}

		public Type GetTypeFromCache(string typeName)
		{
			if (string.IsNullOrWhiteSpace(typeName))
			{
				return null;
			}

			Type type;
			if (!TypeCache.TryGetValue(typeName, out type))
			{
				return null;
			}

			return type;
		}
	}
}

The AddTypeToCache() method does exactly what the method name says — it will add the supplied Type to cache with the provided type name as the key into the ConcurrentDictionary dictionary on this class.

The GetTypeFromCache() method above tries to get a Type from the ConcurrentDictionary instance on this class, and returns to the caller if it was found. If it wasn’t found, null is returned.

The following interface and class serve as a pipeline processor to set a ITypeCacher instance on the ResolveTypeArgs instance passed to it:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetTypeCacherProcessor
{
	public interface ISetTypeCacher
	{
		void Process(ResolveTypeArgs args);
	}
}
using Sandbox.Foundation.ObjectResolution.Services.Cachers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetTypeCacherProcessor
{
	public class SetTypeCacher : ResolveProcessor<ResolveTypeArgs>, ISetTypeCacher
	{
		private readonly ITypeCacher _typeCacher;

		public SetTypeCacher(ITypeCacher typeCacher)
		{
			_typeCacher = typeCacher;
		}

		protected override bool CanProcess(ResolveTypeArgs args) => base.CanProcess(args) && args.UseTypeCache && args.TypeCacher == null;

		protected override void Execute(ResolveTypeArgs args) => args.TypeCacher = GetTypeCacher();

		protected virtual ITypeCacher GetTypeCacher() => _typeCacher;
	}
}

There isn’t much going on in the class above except the injection of the ITypeCacher instance defined further up, and setting that instance on the ResolveTypeArgs instance if it hasn’t already been set.

Now, we need to resolve the Type. The following interface and its implementation class do just that:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.ResolveTypeProcessor
{
	public interface IResolveType
	{
		void Process(ResolveTypeArgs args);
	}
}
using System;
using System.Linq;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.ResolveTypeProcessor
{
	public class ResolveType : ResolveProcessor<ResolveTypeArgs>, IResolveType
	{
		private readonly ITypeResolverArgumentsFactory _typeResolverArgumentsFactory;

		public ResolveType(ITypeResolverArgumentsFactory typeResolverArgumentsFactory)
		{
			_typeResolverArgumentsFactory = typeResolverArgumentsFactory;
		}

		protected override bool CanProcess(ResolveTypeArgs args) => base.CanProcess(args) && args.TypeResolvers != null && args.TypeResolvers.Any() && !string.IsNullOrWhiteSpace(args.TypeName);

		protected override void Execute(ResolveTypeArgs args) => args.Type = Resolve(args);

		protected virtual Type Resolve(ResolveTypeArgs args)
		{
			Type type = null;
			if (args.UseTypeCache)
			{
				type = GetTypeFromCache(args);
			}

			if (type == null)
			{
				type = GetTypeInfo(args);
			}

			return type;
		}

		protected virtual Type GetTypeInfo(ResolveTypeArgs args)
		{
			TypeResolverArguments arguments = CreateTypeResolverArguments(args);
			if (arguments == null)
			{
				return null;
			}

			foreach (ITypeResolver typeResolver in args.TypeResolvers)
			{
				Type type = typeResolver.Resolve(arguments);
				if (type != null)
				{
					return type;
				}
			}

			return null;
		}

		protected virtual Type GetTypeFromCache(ResolveTypeArgs args) => args.TypeCacher.GetTypeFromCache(args.TypeName);

		protected virtual TypeResolverArguments CreateTypeResolverArguments(ResolveTypeArgs args) => _typeResolverArgumentsFactory.CreateTypeResolverArguments(args);
	}
}

Just as I had done in the <resolveItem /> pipeline further up in this post, the above processor class will iterate over a collection of “resolvers” on the PipelineArgs instance — in this case it’s the TypeResolvers — and pass an arguments instance to each’s Resolve() method. This arguments instance is created from a factory defined further up in this post.

I then created the following settings class for the service class that will wrap the <resolveType /> pipeline:

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers
{
	public class TypeResolverServiceSettings
	{
		public string ResolveTypePipelineName { get; set; }
	}
}

The value on the ResolveTypePipelineName property will come from the Sitecore patch file towards the bottom of this post.

I then created the following interface for the service class that will wrap the pipeline — if you are a design patterns buff, this is an example of the adapter pattern:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers
{
	public interface ITypeResolverService : ITypeResolver
	{
	}
}

The following class implements the interface above:

using System;

using Sitecore.Abstractions;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers
{
	public class TypeResolverService : PipelineObjectResolver<TypeResolverArguments, ResolveTypeArgs, Type>, ITypeResolverService
	{
		private readonly TypeResolverServiceSettings _settings;
		private readonly ITypeResolverArgumentsFactory _typeResolverArgumentsFactory;

		public TypeResolverService(TypeResolverServiceSettings settings, ITypeResolverArgumentsFactory typeResolverArgumentsFactory, BaseCorePipelineManager corePipelineManager)
			: base(corePipelineManager)
		{
			_settings = settings;
			_typeResolverArgumentsFactory = typeResolverArgumentsFactory;
		}

		protected override Type GetObject(ResolveTypeArgs args)
		{
			return args.Type;
		}

		protected override ResolveTypeArgs CreatePipelineArgs(TypeResolverArguments arguments) => _typeResolverArgumentsFactory.CreateResolveTypeArgs(arguments);

		protected override string GetPipelineName() => _settings.ResolveTypePipelineName;
	}
}

I’m not going to go into details about the class above as it’s just like the other service class which wraps the <resolveItem /> defined further above in this post.

Still following? We’re almost there. 😉

<locateObject />

So we now have a way to resolve Items and Types, we now need to find a Type from an Item in the IoC container. I created a PipelineArgs class for a pipeline that does just that:

using System;
using System.Collections.Generic;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;
using Sitecore.Pipelines;

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject
{
	public class LocateObjectArgs : PipelineArgs
	{
		public Database Database { get; set; }

		public string ItemPath { get; set; }

		public Language Language { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public bool UseTypeCache { get; set; }

		public ITypeResolver TypeResolver { get; set; }

		public Type Type { get; set; }

		public IList<IObjectLocator> Locators { get; set; } = new List<IObjectLocator>();

		public object Object { get; set; }
	}
}

In reality, this next pipeline can supply an object from anywhere — it doesn’t have to be from an IoC container but that’s what I’m doing here. I did, however, make it extendable so you can source an object from wherever you want, even from the Post Office. 😉

I then created the following arguments object for service classes that will “locate” objects:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators
{
	public class ObjectLocatorArguments
	{
		public Database Database { get; set; }

		public Language Language { get; set; }

		public string ItemPath { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public Type Type { get; set; }

		public bool UseTypeCache { get; set; }
	}
}

As I had done for the previous two “resolvers”, I created a factory to create arguments objects — both for the pipeline and service classes:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectLocators
{
	public interface IObjectLocatorArgumentsFactory
	{
		ObjectLocatorArguments CreateObjectLocatorArguments(ResolveObjectArgs args);
		
		ObjectLocatorArguments CreateObjectLocatorArguments(LocateObjectArgs args);

		ObjectLocatorArguments CreateObjectLocatorArguments(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false);

		LocateObjectArgs CreateLocateObjectArgs(ObjectLocatorArguments arguments);

		LocateObjectArgs CreateLocateObjectArgs(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false);
	}
}
using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectLocators
{
	public class ObjectLocatorArgumentsFactory : IObjectLocatorArgumentsFactory
	{
		public ObjectLocatorArguments CreateObjectLocatorArguments(ResolveObjectArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateObjectLocatorArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.Type, args.UseTypeCache);
		}

		public ObjectLocatorArguments CreateObjectLocatorArguments(LocateObjectArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateObjectLocatorArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.Type, args.UseTypeCache);
		}

		public ObjectLocatorArguments CreateObjectLocatorArguments(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false)
		{
			return new ObjectLocatorArguments
			{
				Database = database,
				Language = language,
				ItemPath = itemPath,
				Item = item,
				TypeFieldName = typeFieldName,
				TypeName = typeName,
				Type = type
			};
		}

		public LocateObjectArgs CreateLocateObjectArgs(ObjectLocatorArguments arguments)
		{
			if (arguments == null)
			{
				return null;
			}

			return CreateLocateObjectArgs(arguments.Database, arguments.Language, arguments.ItemPath, arguments.Item, arguments.TypeFieldName, arguments.TypeName, arguments.Type, arguments.UseTypeCache);
		}

		public LocateObjectArgs CreateLocateObjectArgs(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false)
		{
			return new LocateObjectArgs
			{
				Database = database,
				Language = language,
				ItemPath = itemPath,
				Item = item,
				TypeFieldName = typeFieldName,
				TypeName = typeName,
				Type = type
			};
		}
	}
}

The above class implements the interface above. It just creates arguments for both the pipeline and service classes.

I then defined the following interface for a pipeline processor to set the ITypeResolver (defined way up above in this post):

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.SetTypeResolverProcessor
{
	public interface ISetTypeResolver
	{
		void Process(LocateObjectArgs args);
	}
}

This class implements the interface above:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.SetTypeResolverProcessor
{
	public class SetTypeResolver : ResolveProcessor<LocateObjectArgs>, ISetTypeResolver
	{
		private readonly ITypeResolverService _typeResolverService;

		public SetTypeResolver(ITypeResolverService typeResolverService)
		{
			_typeResolverService = typeResolverService;
		}

		protected override bool CanProcess(LocateObjectArgs args) => base.CanProcess(args) && args.TypeResolver == null;

		protected override void Execute(LocateObjectArgs args)
		{
			args.TypeResolver = GetTypeResolver();
		}

		protected virtual ITypeResolver GetTypeResolver() => _typeResolverService;
	}
}

In the class above, I’m injecting the ITypeResolverService into its constructor — this is the service class that wraps the <resolveType /> pipeline defined further up — and set it on the LocateObjectArgs instance if it’s not already set.

Next, I created the following interface for a processor that will “resolve” the type from the TypeResolver set on the LocateObjectArgs instance:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.ResolveTypeProcessor
{
	public interface IResolveType
	{
		void Process(LocateObjectArgs args);
	}
}

The following class implements the interface above:

using System;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.ResolveTypeProcessor
{
	public class ResolveType : ResolveProcessor<LocateObjectArgs>, IResolveType
	{
		private readonly ITypeResolverArgumentsFactory _typeResolverArgumentsFactory;

		public ResolveType(ITypeResolverArgumentsFactory typeResolverArgumentsFactory)
		{
			_typeResolverArgumentsFactory = typeResolverArgumentsFactory;
		}

		protected override bool CanProcess(LocateObjectArgs args) => base.CanProcess(args) && args.Type == null && args.TypeResolver != null;

		protected override void Execute(LocateObjectArgs args)
		{
			args.Type = Resolve(args);
		}

		protected virtual Type Resolve(LocateObjectArgs args)
		{
			TypeResolverArguments arguments = CreateTypeResolverArguments(args);
			if (arguments == null)
			{
				return null;
			}

			return args.TypeResolver.Resolve(arguments);
		}

		protected virtual TypeResolverArguments CreateTypeResolverArguments(LocateObjectArgs args) => _typeResolverArgumentsFactory.CreateTypeResolverArguments(args);
	}
}

The class above just “resolves” the type from the TypeResolver set on the LocateObjectArgs instance. Nothing more to see. 😉

I then defined the following interface for a family of classes that “locate” objects from somewhere (perhaps a magical place. 😉 ):

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators
{
	public interface IObjectLocator
	{
		object Resolve(ObjectLocatorArguments arguments);
	}
}

Well, we can’t use much magic in this solution, so I’m going to “locate” things in the Sitecore IoC container, so defined the following interface for a class that will employ Service Locator to find it in the Sitecore IoC container:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators
{
	public interface IServiceProviderLocator : IObjectLocator
	{
	}
}

This class implements the interface above:

using System;

using Sitecore.DependencyInjection;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators
{
	public class ServiceProviderLocator : IServiceProviderLocator
	{
		private readonly IServiceProvider _serviceProvider;

		public ServiceProviderLocator()
		{
			_serviceProvider = GetServiceProvider();
		}

		protected virtual IServiceProvider GetServiceProvider()
		{
			return ServiceLocator.ServiceProvider;
		}

		public object Resolve(ObjectLocatorArguments arguments)
		{
			if (arguments == null || arguments.Type == null)
			{
				return null;
			}

			return GetService(arguments.Type);
		}

		protected virtual object GetService(Type type) => _serviceProvider.GetService(type);
	}
}

In the class above, I’m just passing a type to the System.IServiceProvider’s GetService() method — the IServiceProvider instance is grabbed from the ServiceProvider static member on Sitecore.DependencyInjection.ServiceLocator static class.

Next, I need a processor class to add an instance of the Service Locator IObjectLocator class above to the collection of IObjectLocator instances on the LocateObjectArgs instance, so I defined the following interface for a processor class that does just that:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.AddDefaultObjectLocatorProcessor
{
	public interface IAddDefaultObjectLocator
	{
		void Process(LocateObjectArgs args);
	}
}

Here’s the implementation class for the interface above:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.AddDefaultObjectLocatorProcessor
{
	public class AddDefaultObjectLocator : ResolveProcessor<LocateObjectArgs>, IAddDefaultObjectLocator
	{
		private readonly IServiceProviderLocator _serviceProviderLocator;

		public AddDefaultObjectLocator(IServiceProviderLocator serviceProviderLocator)
		{
			_serviceProviderLocator = serviceProviderLocator;
		}

		protected override bool CanProcess(LocateObjectArgs args) => base.CanProcess(args) && args.Locators != null;

		protected override void Execute(LocateObjectArgs args) => args.Locators.Add(GetObjectLocator());

		protected virtual IObjectLocator GetObjectLocator() => _serviceProviderLocator;
	}
}

It’s just adding the IServiceProviderLocator instance to the collection of Locators set on the LocateObjectArgs instance.

Great, so we have things that can “locate” objects but need to have a processor that does the execution of that step to actually find those objects. The following interface is for a processor class that does just that:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.LocateObjectProcessor
{
	public interface ILocateObject
	{
		void Process(LocateObjectArgs args);
	}
}

And here’s its implementation class:

using System.Linq;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.LocateObjectProcessor
{
	public class LocateObject : ResolveProcessor<LocateObjectArgs>, ILocateObject
	{
		private readonly IObjectLocatorArgumentsFactory _objectLocatorArgumentsFactory;

		public LocateObject(IObjectLocatorArgumentsFactory objectLocatorArgumentsFactory)
		{
			_objectLocatorArgumentsFactory = objectLocatorArgumentsFactory;
		}

		protected override bool CanProcess(LocateObjectArgs args) => base.CanProcess(args) && args.Locators != null && args.Locators.Any() && args.Type != null;

		protected override void Execute(LocateObjectArgs args) => args.Object = Resolve(args);

		protected virtual object Resolve(LocateObjectArgs args)
		{
			ObjectLocatorArguments arguments = CreateObjectLocatorArguments(args);
			if (arguments == null)
			{
				return null;
			}

			foreach (IObjectLocator objectLocator in args.Locators)
			{
				object obj = objectLocator.Resolve(arguments);
				if (obj != null)
				{
					return obj;
				}
			}

			return null;
		}

		protected virtual ObjectLocatorArguments CreateObjectLocatorArguments(LocateObjectArgs args) => _objectLocatorArgumentsFactory.CreateObjectLocatorArguments(args);
	}
}

As I had done in the previous pipelines, I’m just iterating over a collection of classes that “resolve” for a particular thing — here I’m iterating over all IObjectLocator instances set on the LocateObjectArgs instance. If one of them find the object we are looking for, we just set it on the LocateObjectArgs instance.

As I had done for the other pipelines, I created a service class that wraps the new pipeline I am creating. The following class serves as a settings class for that service class:

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators
{
	public class ObjectLocatorServiceSettings
	{
		public string LocateObjectPipelineName { get; set; }
	}
}

An instance of the class above will be created by the Sitecore Configuration Factory, and its LocateObjectPipelineName property will contain a value defined in the Sitecore patch file further down in this post.

I then created the following interface for the service class that will wrap this new pipeline:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators
{
	public interface IObjectLocatorService : IObjectLocator
	{
	}
}

Here’s the class that implements the interface above:

using Sitecore.Abstractions;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectLocators;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators
{
	public class ObjectLocatorService : PipelineObjectResolver<ObjectLocatorArguments, LocateObjectArgs, object>, IObjectLocatorService
	{
		private readonly ObjectLocatorServiceSettings _settings;
		private readonly IObjectLocatorArgumentsFactory _objectLocatorArgumentsFactory;

		public ObjectLocatorService(ObjectLocatorServiceSettings settings, IObjectLocatorArgumentsFactory objectLocatorArgumentsFactory, BaseCorePipelineManager corePipelineManager)
			: base(corePipelineManager)
		{
			_settings = settings;
			_objectLocatorArgumentsFactory = objectLocatorArgumentsFactory;
		}

		protected override object GetObject(LocateObjectArgs args)
		{
			return args.Object;
		}

		protected override LocateObjectArgs CreatePipelineArgs(ObjectLocatorArguments arguments) => _objectLocatorArgumentsFactory.CreateLocateObjectArgs(arguments);

		protected override string GetPipelineName() => _settings.LocateObjectPipelineName;
	}
}

I’m not going talk much about the class above — it’s following the same pattern as the other classes that wrap their respective pipelines.

<createObject />

So what happens when we cannot find an object via the <locateObject /> pipeline? Well, let’s create it.

I defined the following PipelineArgs class for a new pipeline that creates objects:

using System;
using System.Collections.Generic;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;
using Sitecore.Pipelines;

using Sandbox.Foundation.ObjectResolution.Services.Cachers;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject
{
	public class CreateObjectArgs : PipelineArgs
	{
		public Database Database { get; set; }

		public string ItemPath { get; set; }

		public Language Language { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public ITypeResolver TypeResolver { get; set; }

		public Type Type { get; set; }

		public object[] Parameters { get; set; }

		public IList<IObjectCreator> Creators { get; set; } = new List<IObjectCreator>();

		public object Object { get; set; }

		public bool UseTypeCache { get; set; }

		public ITypeCacher TypeCacher { get; set; }
	}
}

I then defined the following class for service classes that create objects:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators
{
	public class ObjectCreatorArguments
	{
		public Database Database { get; set; }

		public Language Language { get; set; }

		public string ItemPath { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public Type Type { get; set; }

		public bool UseTypeCache { get; set; }

		public object[] Parameters { get; set; }
	}
}

Since the “new” keyword promotes tight coupling between classes, I created the following factory interface for classes that create the two arguments types shown above:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectCreators
{
	public interface IObjectCreatorArgumentsFactory
	{
		ObjectCreatorArguments CreateObjectCreatorArguments(ResolveObjectArgs args);

		ObjectCreatorArguments CreateObjectCreatorArguments(CreateObjectArgs args);

		ObjectCreatorArguments CreateObjectCreatorArguments(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false, object[] parameters = null);

		CreateObjectArgs CreateCreateObjectArgs(ObjectCreatorArguments arguments);

		CreateObjectArgs CreateCreateObjectArgs(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false, object[] parameters = null);

	}
}

The following class implements the interface above:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectCreators
{
	public class ObjectCreatorArgumentsFactory : IObjectCreatorArgumentsFactory
	{
		public ObjectCreatorArguments CreateObjectCreatorArguments(ResolveObjectArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateObjectCreatorArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.Type, args.UseTypeCache, args.ObjectCreationParameters);
		}

		public ObjectCreatorArguments CreateObjectCreatorArguments(CreateObjectArgs args)
		{
			if (args == null)
			{
				return null;
			}

			return CreateObjectCreatorArguments(args.Database, args.Language, args.ItemPath, args.Item, args.TypeFieldName, args.TypeName, args.Type, args.UseTypeCache, args.Parameters);
		}

		public ObjectCreatorArguments CreateObjectCreatorArguments(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false, object[] parameters = null)
		{
			return new ObjectCreatorArguments
			{
				Database = database,
				Language = language,
				ItemPath = itemPath,
				Item = item,
				TypeFieldName = typeFieldName,
				TypeName = typeName,
				Type = type,
				Parameters = parameters
			};
		}

		public CreateObjectArgs CreateCreateObjectArgs(ObjectCreatorArguments arguments)
		{
			if (arguments == null)
			{
				return null;
			}

			return CreateCreateObjectArgs(arguments.Database, arguments.Language, arguments.ItemPath, arguments.Item, arguments.TypeFieldName, arguments.TypeName, arguments.Type, arguments.UseTypeCache, arguments.Parameters);
		}

		public CreateObjectArgs CreateCreateObjectArgs(Database database = null, Language language = null, string itemPath = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false, object[] parameters = null)
		{
			return new CreateObjectArgs
			{
				Database = database,
				Language = language,
				ItemPath = itemPath,
				Item = item,
				TypeFieldName = typeFieldName,
				TypeName = typeName,
				Type = type,
				UseTypeCache = useTypeCache,
				Parameters = parameters
			};
		}
	}
}

The class above just creates CreateObjectArgs and ObjectCreatorArguments instances.

Let’s jump into the bits that comprise the new pipeline.

The following interface is for a processor class that sets the ITypeResolver on the CreateObjectArgs instance:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeResolverProcessor
{
	public interface ISetTypeResolver
	{
		void Process(CreateObjectArgs args);
	}
}

Here’s the processor class that implements the interface above:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeResolverProcessor
{
	public class SetTypeResolver : ResolveProcessor<CreateObjectArgs>, ISetTypeResolver
	{
		private readonly ITypeResolverService _typeResolverService;

		public SetTypeResolver(ITypeResolverService typeResolverService)
		{
			_typeResolverService = typeResolverService;
		}

		protected override bool CanProcess(CreateObjectArgs args) => base.CanProcess(args) && args.Type == null && args.TypeResolver == null;

		protected override void Execute(CreateObjectArgs args)
		{
			args.TypeResolver = GetTypeResolver();
		}

		protected virtual ITypeResolver GetTypeResolver() => _typeResolverService;
	}
}

Nothing special going on — we’ve seen something like this before further up in this post.

Now, we need a processor to “resolve” types. The following interface is for a processor class which does just that:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.ResolveTypeProcessor
{
	public interface IResolveType
	{
		void Process(CreateObjectArgs args);
	}
}

And here is the processor class that implements the interface above:

using System;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.ResolveTypeProcessor
{
	public class ResolveType : ResolveProcessor<CreateObjectArgs>, IResolveType
	{
		private readonly ITypeResolverArgumentsFactory _typeResolverArgumentsFactory;

		public ResolveType(ITypeResolverArgumentsFactory typeResolverArgumentsFactory)
		{
			_typeResolverArgumentsFactory = typeResolverArgumentsFactory;
		}

		protected override bool CanProcess(CreateObjectArgs args) => base.CanProcess(args) && args.Type == null && args.TypeResolver != null;

		protected override void Execute(CreateObjectArgs args)
		{
			args.Type = Resolve(args);
		}

		protected virtual Type Resolve(CreateObjectArgs args)
		{
			TypeResolverArguments arguments = CreateTypeResolverArguments(args);
			if (arguments == null)
			{
				return null;
			}

			return args.TypeResolver.Resolve(arguments);
		}

		protected virtual TypeResolverArguments CreateTypeResolverArguments(CreateObjectArgs args) => _typeResolverArgumentsFactory.CreateTypeResolverArguments(args);
	}
}

I’m not going to discuss much on this as we’ve already seen something like this further up in this post.

I then defined the following interface for a family of classes that create objects:

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators
{
	public interface IObjectCreator
	{
		object Resolve(ObjectCreatorArguments arguments);
	}
}

Since I’m not good at arts and crafts, we’ll have to use reflection to create objects. The following interface is for a class that uses reflection to create objects:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators
{
	public interface IReflectionObjectCreator : IObjectCreator
	{
	}
}

The following class implements the interface above:

using System.Linq;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Services.Reflection;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators
{
	public class ReflectionObjectCreator : IReflectionObjectCreator
	{
		private readonly IReflectionUtilService _reflectionUtilService;

		public ReflectionObjectCreator(IReflectionUtilService reflectionUtilService)
		{
			_reflectionUtilService = reflectionUtilService;
		}

		public object Resolve(ObjectCreatorArguments arguments)
		{
			if (arguments == null || arguments.Type == null)
			{
				return null;
			}

			if (arguments.Parameters == null || !arguments.Parameters.Any())
			{
				return _reflectionUtilService.CreateObject(arguments.Type);
			}

			return _reflectionUtilService.CreateObject(arguments.Type, arguments.Parameters);
		}
	}
}

This class above just delegates to the IReflectionUtilService instance — this is defined way up above in this post — injected into it for creating objects.

Now we need to put this IReflectionObjectCreator somewhere so it can be used to create objects. The following interface is for a processor class that adds this to a collection of other IObjectCreator defined on the CreateObjectArgs instance:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.AddDefaultObjectCreatorProcessor
{
	public interface IAddDefaultObjectCreator
	{
		void Process(CreateObjectArgs args);
	}
}

And here is the magic behind the interface above:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.AddDefaultObjectCreatorProcessor
{
	public class AddDefaultObjectCreator : ResolveProcessor<CreateObjectArgs>, IAddDefaultObjectCreator
	{
		private readonly IReflectionObjectCreator _reflectionObjectCreator;

		public AddDefaultObjectCreator(IReflectionObjectCreator reflectionObjectCreator)
		{
			_reflectionObjectCreator = reflectionObjectCreator;
		}

		protected override bool CanProcess(CreateObjectArgs args) => base.CanProcess(args) && args.Creators != null;

		protected override void Execute(CreateObjectArgs args) => args.Creators.Add(GetObjectLocator());

		protected virtual IObjectCreator GetObjectLocator() => _reflectionObjectCreator;
	}
}

We are just adding the IReflectionObjectCreator instance to the Creators collection on the CreateObjectArgs instance.

Now, we need a processor that delegates to each IObjectCreator instance in the collection on the CreateObjectArgs instance. The following interface is for a processor that does that:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CreateObjectProcessor
{
	public interface ICreateObject
	{
		void Process(CreateObjectArgs args);
	}
}

Here’s the above interface’s implementation class:

using System.Linq;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CreateObjectProcessor
{
	public class CreateObject : ResolveProcessor<CreateObjectArgs>, ICreateObject
	{
		private readonly IObjectCreatorArgumentsFactory _objectCreatorArgumentsFactory;

		public CreateObject(IObjectCreatorArgumentsFactory objectCreatorArgumentsFactory)
		{
			_objectCreatorArgumentsFactory = objectCreatorArgumentsFactory;
		}

		protected override bool CanProcess(CreateObjectArgs args) => base.CanProcess(args) && args.Creators.Any();

		protected override void Execute(CreateObjectArgs args)
		{
			args.Object = CreateObjectFromArguments(args);
		}

		protected virtual object CreateObjectFromArguments(CreateObjectArgs args)
		{
			ObjectCreatorArguments arguments = CreateObjectCreatorArguments(args);
			if (arguments == null)
			{
				return null;
			}

			foreach (IObjectCreator objectCreator in args.Creators)
			{
				object result = CreateObjectFromArguments(objectCreator, arguments);
				if (result != null)
				{
					return result;
				}
			}

			return null;
		}

		protected virtual ObjectCreatorArguments CreateObjectCreatorArguments(CreateObjectArgs args) => _objectCreatorArgumentsFactory.CreateObjectCreatorArguments(args);

		protected virtual object CreateObjectFromArguments(IObjectCreator objectCreator, ObjectCreatorArguments arguments) => objectCreator.Resolve(arguments);
	}
}

The above class just iterates over the IObjectCreator collection on the CreateObjectArgs instance, and tries to create an object using each. The IObjectCreatorArgumentsFactory instance assists in creating the ObjectCreatorArguments instance from the CreateObjectArgs instance so it can make such calls on each IObjectCreator instance.

If an object is created from one them, it just uses that and stops the iteration.

It’s probably a good idea to only cache Types when an object was actually created from the Type. The following interface is for a processor that sets a ITypeCacher on the CreateObjectArgs instance — this class will add the Type to a cache (perhaps in a bank somewhere on the Cayman Islands? 😉 ):

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeCacherProcessor
{
	public interface ISetTypeCacher
	{
		void Process(CreateObjectArgs args);
	}
}

Here’s the implementation class for the interface above:

using Sandbox.Foundation.ObjectResolution.Services.Cachers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeCacherProcessor
{
	public class SetTypeCacher : ResolveProcessor<CreateObjectArgs>, ISetTypeCacher
	{
		private readonly ITypeCacher _typeCacher;

		public SetTypeCacher(ITypeCacher typeCacher)
		{
			_typeCacher = typeCacher;
		}

		protected override bool CanProcess(CreateObjectArgs args) => base.CanProcess(args) && args.UseTypeCache && args.TypeCacher == null;

		protected override void Execute(CreateObjectArgs args) => args.TypeCacher = _typeCacher;
	}
}

It’s just setting the injected ITypeCacher — the implementation class is defined further up in this post — on the CreateObjectArgs instance.

Now, we need to use the ITypeCacher to cache the type. The following interface is for a processor class delegates to the ITypeCacher instance to cache the Type:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CacheTypeProcessor
{
	public interface ICacheType
	{
		void Process(CreateObjectArgs args);
	}
}

Here is the process class which implements the interface above:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CacheTypeProcessor
{
	public class CacheType : ResolveProcessor<CreateObjectArgs>, ICacheType
	{
		protected override bool CanProcess(CreateObjectArgs args) => base.CanProcess(args) && !string.IsNullOrWhiteSpace(args.TypeName) && args.Type != null && args.UseTypeCache && args.TypeCacher != null;

		protected override void Execute(CreateObjectArgs args) => AddTypeToCache(args);

		protected virtual void AddTypeToCache(CreateObjectArgs args) => args.TypeCacher.AddTypeToCache(args.TypeName, args.Type);
	}
}

It should be self-explanatory what’s happening here. If not, please drop a comment below.

Now, we need a service class that wraps this new pipeline. I created the following settings class for that service:

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators
{
	public class ObjectCreatorServiceSettings
	{
		public string CreateObjectPipelineName { get; set; }
	}
}

An instance of this class is created by the Sitecore Configuration Factory just as the other ones in this post are.

I then defined the following interface for the service class that will wrap this new pipeline — it’s just another IObjectCreator:

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators
{
	public interface IObjectCreatorService : IObjectCreator
	{
	}
}

This class implements the interface above:

using Sitecore.Abstractions;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectCreators;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators
{
	public class ObjectCreatorService : PipelineObjectResolver<ObjectCreatorArguments, CreateObjectArgs, object>, IObjectCreatorService
	{
		private readonly ObjectCreatorServiceSettings _settings;
		private readonly IObjectCreatorArgumentsFactory _objectCreatorArgumentsFactory;

		public ObjectCreatorService(ObjectCreatorServiceSettings settings, IObjectCreatorArgumentsFactory objectCreatorArgumentsFactory, BaseCorePipelineManager corePipelineManager)
			: base(corePipelineManager)
		{
			_settings = settings;
			_objectCreatorArgumentsFactory = objectCreatorArgumentsFactory;
		}

		protected override object GetObject(CreateObjectArgs args)
		{
			return args.Object;
		}

		protected override CreateObjectArgs CreatePipelineArgs(ObjectCreatorArguments arguments) => _objectCreatorArgumentsFactory.CreateCreateObjectArgs(arguments);

		protected override string GetPipelineName() => _settings.CreateObjectPipelineName;
	}
}

I’m not going to go into details on the above as you have seen this pattern further above in this post.

<resolveObject />

Now we need a way to glue together all pipelines created above. The following PipelineArgs class is for — yet another pipeline 😉 — that glues everything together:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;
using Sitecore.Pipelines;

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject
{
	public class ResolveObjectArgs : PipelineArgs
	{
		public Database Database { get; set; }

		public string ItemPath { get; set; }

		public Language Language { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public ITypeResolver TypeResolver { get; set; }

		public Type Type { get; set; }

		public IObjectLocator ObjectLocator;

		public bool FoundInContainer { get; set; }

		public IObjectCreator ObjectCreator;

		public bool UseTypeCache { get; set; }

		public object[] ObjectCreationParameters { get; set; }

		public object Object { get; set; }
	}
}

I also created the following class for the service class that will wrap this new pipeline:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers
{
	public class ObjectResolverArguments
	{
		public Database Database { get; set; }

		public Language Language { get; set; }

		public string ItemPath { get; set; }

		public Item Item { get; set; }

		public string TypeFieldName { get; set; }

		public string TypeName { get; set; }

		public Type Type { get; set; }

		public bool UseTypeCache { get; set; }

		public object[] ObjectCreationParameters { get; set; }
	}
}

I bet you are guessing that I’m going to create another factory for these two classes above. Yep, you are correct. Here is the interface for that factory:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectResolvers
{
	public interface IObjectResolverArgumentsFactory
	{
		ObjectResolverArguments CreateObjectResolverArguments(Database database, string itemPath, string typeFieldName, Language language, object[] objectCreationParameters);

		ObjectResolverArguments CreateObjectResolverArguments(Item item, string typeFieldName, bool useTypeCache, object[] objectCreationParameters);

		ResolveObjectArgs CreateResolveObjectArgs(ObjectResolverArguments arguments);

		ResolveObjectArgs CreateResolveObjectArgs(Database database = null, string itemPath = null, Language language = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false, object[] objectCreationParameters = null);

	}
}

The following class implements the factory interface above:

using System;

using Sitecore.Data;
using Sitecore.Data.Items;
using Sitecore.Globalization;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;

namespace Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectResolvers
{
	public class ObjectResolverArgumentsFactory : IObjectResolverArgumentsFactory
	{
		public ObjectResolverArguments CreateObjectResolverArguments(Database database, string itemPath, string typeFieldName, Language language, object[] objectCreationParameters)
		{
			return new ObjectResolverArguments
			{
				Database = database,
				ItemPath = itemPath,
				TypeFieldName = typeFieldName,
				Language = language,
				ObjectCreationParameters = objectCreationParameters
			};
		}

		public ObjectResolverArguments CreateObjectResolverArguments(Item item, string typeFieldName, bool useTypeCache, object[] objectCreationParameters)
		{
			return new ObjectResolverArguments
			{
				Item = item,
				TypeFieldName = typeFieldName,
				UseTypeCache = useTypeCache,
				ObjectCreationParameters = objectCreationParameters
			};
		}

		public ResolveObjectArgs CreateResolveObjectArgs(ObjectResolverArguments arguments)
		{
			if (arguments == null)
			{
				return null;
			}

			return CreateResolveObjectArgs(arguments.Database, arguments.ItemPath, arguments.Language, arguments.Item, arguments.TypeFieldName, arguments.TypeName, arguments.Type, arguments.UseTypeCache, arguments.ObjectCreationParameters);
		}

		public ResolveObjectArgs CreateResolveObjectArgs(Item item, string typeFieldName, object[] objectCreationParameters)
		{
			return new ResolveObjectArgs
			{
				Item = item,
				TypeFieldName = typeFieldName,
				ObjectCreationParameters = objectCreationParameters
			};
		}

		public ResolveObjectArgs CreateResolveObjectArgs(Database database = null, string itemPath = null, Language language = null, Item item = null, string typeFieldName = null, string typeName = null, Type type = null, bool useTypeCache = false, object[] objectCreationParameters = null)
		{
			return new ResolveObjectArgs
			{
				Database = database,
				ItemPath = itemPath,
				Language = language,
				Item = item,
				TypeFieldName = typeFieldName,
				TypeName = typeName,
				Type= type,
				UseTypeCache = useTypeCache,
				ObjectCreationParameters = objectCreationParameters
			};
		}
	}
}

The following interface is for a processor class that sets the ITypeResolver on the ResolveObjectArgs instance:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject
{
	public interface ISetTypeResolver
	{
		void Process(ResolveObjectArgs args);
	}
}

Here’s its implementation class:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject
{
	public class SetTypeResolver : ResolveProcessor<ResolveObjectArgs>, ISetTypeResolver
	{
		private readonly ITypeResolverService _typeResolverService;

		public SetTypeResolver(ITypeResolverService typeResolverService)
		{
			_typeResolverService = typeResolverService;
		}

		protected override bool CanProcess(ResolveObjectArgs args) => base.CanProcess(args) && args.TypeResolver == null;

		protected override void Execute(ResolveObjectArgs args)
		{
			args.TypeResolver = GetTypeResolver();
		}

		protected virtual ITypeResolver GetTypeResolver() => _typeResolverService;
	}
}

We have already seen this twice, so I won’t discuss it again. 😉

Next, we need to resolve the type. The following interface is for a processor class that does that type resolution:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.ResolveTypeProcessor
{
	public interface IResolveType
	{
		void Process(ResolveObjectArgs args);
	}
}

Here’s the class that implements the interface above:

using System;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.ResolveTypeProcessor
{
	public class ResolveType : ResolveProcessor<ResolveObjectArgs>, IResolveType
	{
		private readonly ITypeResolverArgumentsFactory _typeResolverArgumentsFactory;

		public ResolveType(ITypeResolverArgumentsFactory typeResolverArgumentsFactory)
		{
			_typeResolverArgumentsFactory = typeResolverArgumentsFactory;
		}

		protected override bool CanProcess(ResolveObjectArgs args) => base.CanProcess(args) && args.Type == null && args.TypeResolver != null;

		protected override void Execute(ResolveObjectArgs args)
		{
			args.Type = Resolve(args);
		}

		protected virtual Type Resolve(ResolveObjectArgs args)
		{
			TypeResolverArguments arguments = CreateTypeResolverArguments(args);
			if (arguments == null)
			{
				return null;
			}

			return args.TypeResolver.Resolve(arguments);
		}

		protected virtual TypeResolverArguments CreateTypeResolverArguments(ResolveObjectArgs args) => _typeResolverArgumentsFactory.CreateTypeResolverArguments(args);
	}
}

I’m also not going to discuss this as I’ve done this somewhere up above. 😉

Now we need a processor to “locate” objects in the Sitecore IoC container. The following interface is for a processor class that does just that:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectLocatorProcessor
{
	public interface ISetObjectLocator
	{
		void Process(ResolveObjectArgs args);
	}
}

The following class implements the interface above:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectLocatorProcessor
{
	public class SetObjectLocator : ResolveProcessor<ResolveObjectArgs>, ISetObjectLocator
	{
		private readonly IObjectLocatorService _objectLocatorService;

		public SetObjectLocator(IObjectLocatorService objectLocatorService)
		{
			_objectLocatorService = objectLocatorService;
		}

		protected override bool CanProcess(ResolveObjectArgs args) => base.CanProcess(args) && args.ObjectLocator == null;

		protected override void Execute(ResolveObjectArgs args) => args.ObjectLocator = GetObjectLocator();

		protected virtual IObjectLocator GetObjectLocator() => _objectLocatorService;
	}
}

The class above just sets the IObjectLocatorService — this is the service class which wraps the <locateObject /> pipeline defined further up in this post — on the ResolveObjectArgs instance.

I then created the following interface to delegate to the ObjectLocator property on the ResolveObjectArgs to “locate” the object:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.LocateObjectProcessor
{
	public interface ILocateObject
	{
		void Process(ResolveObjectArgs args);
	}
}

And here’s the class that implements this interface above:

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectLocators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.LocateObjectProcessor
{
	public class LocateObject : ResolveProcessor<ResolveObjectArgs>, ILocateObject
	{
		private readonly IObjectLocatorArgumentsFactory _objectLocatorArgumentsFactory;

		public LocateObject(IObjectLocatorArgumentsFactory objectLocatorArgumentsFactory)
		{
			_objectLocatorArgumentsFactory = objectLocatorArgumentsFactory;
		}

		protected override bool CanProcess(ResolveObjectArgs args) => base.CanProcess(args) && args.Object == null && args.ObjectLocator != null;

		protected override void Execute(ResolveObjectArgs args)
		{
			args.Object = Locate(args);
			args.FoundInContainer = args.Object != null;
			if (!args.FoundInContainer)
			{
				return;
			}

			AbortPipeline(args);
		}

		protected virtual object Locate(ResolveObjectArgs args) => args.ObjectLocator.Resolve(CreateObjectLocatorArguments(args));

		protected virtual ObjectLocatorArguments CreateObjectLocatorArguments(ResolveObjectArgs args) => _objectLocatorArgumentsFactory.CreateObjectLocatorArguments(args);
	}
}

The above class just tries to “locate” the object using the ObjectLocator set on the ResolveObjectArgs instance.

In the event we can’t find the object via the IObjectLocator, we should create the object instead. I created the following interface to set an IObjectCreator instance on the ResolveObjectArgs instance:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectCreatorProcessor
{
	public interface ISetObjectCreator
	{
		void Process(ResolveObjectArgs args);
	}
}

And here’s its implementation class:

using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectCreatorProcessor
{
	public class SetObjectCreator : ResolveProcessor<ResolveObjectArgs>, ISetObjectCreator
	{
		private readonly IObjectCreatorService _objectCreatorService;

		public SetObjectCreator(IObjectCreatorService objectCreatorService)
		{
			_objectCreatorService = objectCreatorService;
		}

		protected override bool CanProcess(ResolveObjectArgs args) => base.CanProcess(args) && args.ObjectCreator == null;

		protected override void Execute(ResolveObjectArgs args) => args.ObjectCreator = GetObjectCreator();

		protected virtual IObjectCreator GetObjectCreator() => _objectCreatorService;
	}
}

The class above just sets the IObjectCreatorService — this is the service class which wraps the <createObject /> pipeline defined further up in this post — on the ResolveObjectArgs instance.

Next, we need to delegate to this IObjectCreator to create the object. The following interface is for a class that creates objects:

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.CreateObjectProcessor
{
	public interface ICreateObject
	{
		void Process(ResolveObjectArgs args);
	}
}

And here’s the implementation of the interface above:

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectCreators;

namespace Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.CreateObjectProcessor
{
	public class CreateObject : ResolveProcessor<ResolveObjectArgs>, ICreateObject
	{
		private readonly IObjectCreatorArgumentsFactory _objectCreatorArgumentsFactory;

		public CreateObject(IObjectCreatorArgumentsFactory objectCreatorArgumentsFactory)
		{
			_objectCreatorArgumentsFactory = objectCreatorArgumentsFactory;
		}
		protected override bool CanProcess(ResolveObjectArgs args) => base.CanProcess(args) && args.Object == null && args.ObjectCreator != null;

		protected override void Execute(ResolveObjectArgs args) => args.Object = Resolve(args);

		protected virtual object Resolve(ResolveObjectArgs args) => args.ObjectCreator.Resolve(CreateObjectCreatorArguments(args));

		protected virtual ObjectCreatorArguments CreateObjectCreatorArguments(ResolveObjectArgs args) => _objectCreatorArgumentsFactory.CreateObjectCreatorArguments(args);
	}
}

The class above just delegates to the IObjectCreator instance of the ResolveObjectArgs instance to create the object

Like the other 4 pipelines — holy cannoli, Batman, there are 5 pipelines in total in this solution! — I created a service class that wraps this new pipeline. The following class serves as a settings class for this service:

namespace Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers
{
	public class ObjectResolverServiceSettings
	{
		public string ResolveObjectPipelineName { get; set; }

		public bool UseTypeCache { get; set; }
	}
}

An instance of the above is created by the Sitecore Configuration Factory.

The following interface defines a family of classes that “resolve” objects. Unlike the other pipelines, we will only have one class that implements this interface:

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectResolvers
{
	public interface IObjectResolver
	{
		TObject Resolve<TObject>(ObjectResolverArguments arguments) where TObject : class;

		object Resolve(ObjectResolverArguments arguments);
	}
}

The following class implements the interface above:

using Sitecore.Abstractions;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectResolvers;

namespace Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectResolvers
{
	public class ObjectResolverService : PipelineObjectResolver<ObjectResolverArguments, ResolveObjectArgs, object>, IObjectResolver
	{
		private readonly ObjectResolverServiceSettings _settings;
		private readonly IObjectResolverArgumentsFactory _objectResolverArgumentsFactory;

		public ObjectResolverService(ObjectResolverServiceSettings settings, IObjectResolverArgumentsFactory objectResolverArgumentsFactory, BaseCorePipelineManager corePipelineManager)
			: base(corePipelineManager)
		{
			_settings = settings;
			_objectResolverArgumentsFactory = objectResolverArgumentsFactory;
		}

		public TObject Resolve<TObject>(ObjectResolverArguments arguments) where TObject : class
		{
			return Resolve(arguments) as TObject;
		}

		protected override object GetObject(ResolveObjectArgs args)
		{
			return args.Object;
		}

		protected override ResolveObjectArgs CreatePipelineArgs(ObjectResolverArguments arguments) => _objectResolverArgumentsFactory.CreateResolveObjectArgs(arguments);

		protected override string GetPipelineName() => _settings.ResolveObjectPipelineName;
	}
}

I then register every single thing above — and I mean EVERYTHING — in the Sitecore IoC via the following IServicesConfigurator class:

using System;

using Microsoft.Extensions.DependencyInjection;

using Sitecore.Abstractions;
using Sitecore.DependencyInjection;

using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers;
using Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.AddDefaultObjectCreatorProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CacheTypeProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CreateObjectProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.ResolveTypeProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeCacherProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeResolverProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.AddDefaultObjectLocatorProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.LocateObjectProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.AddDefaultItemResolverProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.ResolveItemProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectCreatorProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectLocatorProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.AddDefaultTypeResolverProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetItemResolverProcessor;
using Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetTypeNameProcessor;
using Sandbox.Foundation.ObjectResolution.Services.Cachers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.ObjectResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Factories.Resolvers.TypeResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Reflection;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ItemResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectCreators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectLocators;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.ObjectResolvers;
using Sandbox.Foundation.ObjectResolution.Services.Resolvers.TypeResolvers;

namespace Sandbox.Foundation.ObjectResolution
{
	public class ObjectResolutionConfigurator : IServicesConfigurator
	{
		public void Configure(IServiceCollection serviceCollection)
		{
			ConfigureCachers(serviceCollection);
			ConfigureFactories(serviceCollection);
			ConfigureItemResolvers(serviceCollection);
			ConfigureTypeResolvers(serviceCollection);
			ConfigureObjectCreators(serviceCollection);
			ConfigureObjectLocators(serviceCollection);
			ConfigureObjectResolvers(serviceCollection);
			ConfigureResolveItemPipelineProcessors(serviceCollection);
			ConfigureResolveTypePipelineProcessors(serviceCollection);
			ConfigureLocateObjectPipelineProcessors(serviceCollection);
			ConfigureCreateObjectPipelineProcessors(serviceCollection);
			ConfigureResolveObjectPipelineProcessors(serviceCollection);
			ConfigureOtherServices(serviceCollection);
		}

		private void ConfigureCachers(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<ITypeCacher, TypeCacher>();
		}

		private void ConfigureFactories(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IItemResolverArgumentsFactory, ItemResolverArgumentsFactory>();
			serviceCollection.AddSingleton<ITypeResolverArgumentsFactory, TypeResolverArgumentsFactory>();
			serviceCollection.AddSingleton<IObjectLocatorArgumentsFactory, ObjectLocatorArgumentsFactory>();
			serviceCollection.AddSingleton<IObjectCreatorArgumentsFactory, ObjectCreatorArgumentsFactory>();
			serviceCollection.AddSingleton<IObjectResolverArgumentsFactory, ObjectResolverArgumentsFactory>();
		}

		private void ConfigureItemResolvers(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IDatabaseItemResolver, DatabaseItemResolver>();
			serviceCollection.AddSingleton(GetItemResolverServiceSetting);
			serviceCollection.AddSingleton<IItemResolverService, ItemResolverService>();
		}

		private ItemResolverServiceSettings GetItemResolverServiceSetting(IServiceProvider provider)
		{
			return CreateConfigObject<ItemResolverServiceSettings>(provider, "moduleSettings/foundation/objectResolution/itemResolverServiceSettings");
		}

		private void ConfigureTypeResolvers(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IReflectionTypeResolver, ReflectionTypeResolver>();
			serviceCollection.AddSingleton(GetTypeResolverServiceSettings);
			serviceCollection.AddSingleton<ITypeResolverService, TypeResolverService>();
		}

		private TypeResolverServiceSettings GetTypeResolverServiceSettings(IServiceProvider provider)
		{
			return CreateConfigObject<TypeResolverServiceSettings>(provider, "moduleSettings/foundation/objectResolution/typeResolverServiceSettings");
		}

		private void ConfigureObjectCreators(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IReflectionObjectCreator, ReflectionObjectCreator>();
			serviceCollection.AddSingleton(GetObjectCreatorServiceSettings);
			serviceCollection.AddSingleton<IObjectCreatorService, ObjectCreatorService>();
		}

		private ObjectCreatorServiceSettings GetObjectCreatorServiceSettings(IServiceProvider provider)
		{
			return CreateConfigObject<ObjectCreatorServiceSettings>(provider, "moduleSettings/foundation/objectResolution/objectCreatorServiceSettings");
		}

		private void ConfigureObjectLocators(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IServiceProviderLocator, ServiceProviderLocator>();
			serviceCollection.AddSingleton(GetObjectLocatorServiceSettings);
			serviceCollection.AddSingleton<IObjectLocatorService, ObjectLocatorService>();
		}

		private ObjectLocatorServiceSettings GetObjectLocatorServiceSettings(IServiceProvider provider)
		{
			return CreateConfigObject<ObjectLocatorServiceSettings>(provider, "moduleSettings/foundation/objectResolution/objectLocatorServiceSettings");
		}

		private void ConfigureObjectResolvers(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IReflectionObjectCreator, ReflectionObjectCreator>();
			serviceCollection.AddSingleton(GetObjectResolverServiceSettings);
			serviceCollection.AddSingleton<IObjectResolver, ObjectResolverService>();
		}

		private ObjectResolverServiceSettings GetObjectResolverServiceSettings(IServiceProvider provider)
		{
			return CreateConfigObject<ObjectResolverServiceSettings>(provider, "moduleSettings/foundation/objectResolution/objectResolverServiceSettings");
		}

		private void ConfigureResolveItemPipelineProcessors(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IAddDefaultItemResolver, AddDefaultItemResolver>();
			serviceCollection.AddSingleton<IResolveItem, ResolveItem>();
		}

		private void ConfigureResolveTypePipelineProcessors(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<ISetItemResolver, SetItemResolver>();
			serviceCollection.AddSingleton<Pipelines.ResolveType.ResolveTypeProcessor.IResolveItem, Pipelines.ResolveType.ResolveTypeProcessor.ResolveItem>();
			serviceCollection.AddSingleton<ISetTypeName, SetTypeName>();
			serviceCollection.AddSingleton<IAddDefaultTypeResolver, AddDefaultTypeResolver>();
			serviceCollection.AddSingleton<Pipelines.ResolveType.SetTypeCacherProcessor.ISetTypeCacher, Pipelines.ResolveType.SetTypeCacherProcessor.SetTypeCacher>();
			serviceCollection.AddSingleton<Pipelines.ResolveType.ResolveTypeProcessor.IResolveType, Pipelines.ResolveType.ResolveTypeProcessor.ResolveType>();
		}

		private void ConfigureLocateObjectPipelineProcessors(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<Pipelines.LocateObject.SetTypeResolverProcessor.ISetTypeResolver, Pipelines.LocateObject.SetTypeResolverProcessor.SetTypeResolver>();
			serviceCollection.AddSingleton<Pipelines.LocateObject.ResolveTypeProcessor.IResolveType, Pipelines.LocateObject.ResolveTypeProcessor.ResolveType>();
			serviceCollection.AddSingleton<IAddDefaultObjectLocator, AddDefaultObjectLocator>();
			serviceCollection.AddSingleton<ILocateObject, LocateObject>();
		}

		private void ConfigureCreateObjectPipelineProcessors(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<ISetTypeResolver, SetTypeResolver>();
			serviceCollection.AddSingleton<IResolveType, ResolveType>();
			serviceCollection.AddSingleton<IAddDefaultObjectCreator, AddDefaultObjectCreator>();
			serviceCollection.AddSingleton<ICreateObject, CreateObject>();
			serviceCollection.AddSingleton<ISetTypeCacher, SetTypeCacher>();
			serviceCollection.AddSingleton<ICacheType, CacheType>();
		}

		private void ConfigureResolveObjectPipelineProcessors(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<Pipelines.ResolveObject.ISetTypeResolver, Pipelines.ResolveObject.SetTypeResolver>();
			serviceCollection.AddSingleton<Pipelines.ResolveObject.ResolveTypeProcessor.IResolveType, Pipelines.ResolveObject.ResolveTypeProcessor.ResolveType>();
			serviceCollection.AddSingleton<ISetObjectLocator, SetObjectLocator>();
			serviceCollection.AddSingleton<Pipelines.ResolveObject.LocateObjectProcessor.ILocateObject, Pipelines.ResolveObject.LocateObjectProcessor.LocateObject>();
			serviceCollection.AddSingleton<ISetObjectCreator, SetObjectCreator>();
			serviceCollection.AddSingleton<Pipelines.ResolveObject.CreateObjectProcessor.ICreateObject, Pipelines.ResolveObject.CreateObjectProcessor.CreateObject>();
		}

		private void ConfigureOtherServices(IServiceCollection serviceCollection)
		{
			serviceCollection.AddSingleton<IReflectionUtilService, ReflectionUtilService>();
		}

		private TConfigObject CreateConfigObject<TConfigObject>(IServiceProvider provider, string path) where TConfigObject : class
		{
			BaseFactory factory = GetService<BaseFactory>(provider);
			return factory.CreateObject(path, true) as TConfigObject;
		}

		private TService GetService<TService>(IServiceProvider provider)
		{
			return provider.GetService<TService>();
		}
	}
}

Finally, I strung all the pieces together using the following Sitecore patch config file:

<configuration xmlns:patch="http://www.sitecore.net/xmlconfig/">
	<sitecore>
		<services>
			<configurator type="Sandbox.Foundation.ObjectResolution.ObjectResolutionConfigurator, Sandbox.Foundation.ObjectResolution" />
		</services>

		<pipelines>
			<resolveItem>
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.AddDefaultItemResolverProcessor.IAddDefaultItemResolver, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveItem.ResolveItemProcessor.IResolveItem, Sandbox.Foundation.ObjectResolution" resolve="true" />
			</resolveItem>
			<resolveType>
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetItemResolverProcessor.ISetItemResolver, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.ResolveTypeProcessor.IResolveItem, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetTypeNameProcessor.ISetTypeName, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.AddDefaultTypeResolverProcessor.IAddDefaultTypeResolver, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.SetTypeCacherProcessor.ISetTypeCacher, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveType.ResolveTypeProcessor.IResolveType, Sandbox.Foundation.ObjectResolution" resolve="true" />
			</resolveType>
			<locateObject>
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.SetTypeResolverProcessor.ISetTypeResolver, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.ResolveTypeProcessor.IResolveType, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.AddDefaultObjectLocatorProcessor.IAddDefaultObjectLocator, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.LocateObject.LocateObjectProcessor.ILocateObject, Sandbox.Foundation.ObjectResolution" resolve="true" />
			</locateObject>
			<createObject>
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeResolverProcessor.ISetTypeResolver, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.ResolveTypeProcessor.IResolveType, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.AddDefaultObjectCreatorProcessor.IAddDefaultObjectCreator, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CreateObjectProcessor.ICreateObject, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.SetTypeCacherProcessor.ISetTypeCacher, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.CreateObject.CacheTypeProcessor.ICacheType, Sandbox.Foundation.ObjectResolution" resolve="true" />
			</createObject>
			<resolveObject>
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.ISetTypeResolver, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.ResolveTypeProcessor.IResolveType, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectLocatorProcessor.ISetObjectLocator, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.LocateObjectProcessor.ILocateObject, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.SetObjectCreatorProcessor.ISetObjectCreator, Sandbox.Foundation.ObjectResolution" resolve="true" />
				<processor type="Sandbox.Foundation.ObjectResolution.Pipelines.ResolveObject.CreateObjectProcessor.ICreateObject, Sandbox.Foundation.ObjectResolution" resolve="true" />
			</resolveObject>
		</pipelines>

		<moduleSettings>
			<foundation>
				<objectResolution>
					<itemResolverServiceSettings type="Sandbox.Foundation.ObjectResolution.Models.Resolvers.ItemResolvers.ItemResolverServiceSettings, Sandbox.Foundation.ObjectResolution" singleInstance="true">
						<ResolveItemPipelineName>resolveItem</ResolveItemPipelineName>
					</itemResolverServiceSettings>
					<typeResolverServiceSettings type="Sandbox.Foundation.ObjectResolution.Models.Resolvers.TypeResolvers.TypeResolverServiceSettings, Sandbox.Foundation.ObjectResolution" singleInstance="true">
						<ResolveTypePipelineName>resolveType</ResolveTypePipelineName>
					</typeResolverServiceSettings>
					<objectLocatorServiceSettings type="Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectLocators.ObjectLocatorServiceSettings, Sandbox.Foundation.ObjectResolution" singleInstance="true">
						<LocateObjectPipelineName>locateObject</LocateObjectPipelineName>
					</objectLocatorServiceSettings>
					<objectCreatorServiceSettings type="Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectCreators.ObjectCreatorServiceSettings, Sandbox.Foundation.ObjectResolution" singleInstance="true">
						<CreateObjectPipelineName>createObject</CreateObjectPipelineName>
					</objectCreatorServiceSettings>
					<objectResolverServiceSettings type="Sandbox.Foundation.ObjectResolution.Models.Resolvers.ObjectResolvers.ObjectResolverServiceSettings, Sandbox.Foundation.ObjectResolution" singleInstance="true">
						<ResolveObjectPipelineName>resolveObject</ResolveObjectPipelineName>
						<UseTypeCache>true</UseTypeCache>
					</objectResolverServiceSettings>
				</objectResolution>
			</foundation>
		</moduleSettings>
</sitecore>
</configuration>

In my next post, I will be using the entire system above for resolving custom Forms Submit Actions from the Sitecore IoC container. Stay tuned for that post.

If you have made it this far, hats off to you. 😉

Sorry for throwing so much at you, but that’s what I do. 😉

On closing, I would like to mention that the system above could be used for resolving types from the Sitecore IoC container for WFFM but this is something that I will not investigate. If you happen to get this to work on WFFM, please share in a comment below.

Until next time, keep on Sitecoring.

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Chain Together Sitecore Functionality Using the Chain-of-responsibility Design Pattern

This post is a continuation of a series of posts I’m putting together around using design patterns in Sitecore solutions, and will show a “proof of concept” around using the chain-of-responsibility pattern — a pattern where objects are linked together and are invoked in a cascading manner.

I decided to revisit a post I wrote over two years ago on chaining together client commands — these are invoked via the Sheer UI framework which drives how the ribbon, item context menu and other things work in Sitecore.

Earlier today — or yesterday depending on where you are — I began my code journey by building the following interface:

using Sitecore.Shell.Framework.Commands;

namespace Sitecore.Sandbox.Invokers.Commands
{
    public interface ICommandInvoker
    {
        bool HasCommand();

        void SetCommand(string commandName);

        void SetNextInvoker(ICommandInvoker nextInvoker);

        bool CanInvoke(CommandContext commandContext);

        void Invoke(CommandContext commandContext);
    }
}

The idea here is instances of classes that implement the interface above — let’s call them processing objects — will encapsulate instances of subclasses of Sitecore.Shell.Framework.Commands.Command — this is defined in Sitecore.Kernel.dll.

Each processing object will be linked to another processing object — I’m calling this other processing object the NextInvoker in code — which is invoked after the previous one.

Since the NextInvoker implements the interface above, it can also have its own NextInvoker thus chaining together a series of classes that implement the ICommandInvoker interface above.

I decided employ another design pattern in this solution — the Null Object pattern — and defined the following class whose instances will serve as a Null Object — I did this to reduce the amount of null checks in code (I should probably devote an entire post on this pattern):

using Sitecore.Diagnostics;
using Sitecore.Shell.Framework.Commands;

namespace Sitecore.Sandbox.Invokers.Commands
{
    public class NullCommandInvoker : ICommandInvoker
    {
        public NullCommandInvoker()
        {
        }

        public bool HasCommand()
        {
            return false;
        }

        public void SetCommand(string commandName)
        {
        }

        public void SetNextInvoker(ICommandInvoker nextInvoker)
        {
        }

        public bool CanInvoke(CommandContext commandContext)
        {
            return true;
        }

        public void Invoke(CommandContext commandContext)
        {
        }
    }
}

Basically, instances of the class above do nothing and can be invoked — why not? They don’t do actually do anything so no harm done, right? 😉 — as can be seen in the CanInvoke() method.

I then created the following class whose instances will serve as the default processing objects:

using Sitecore.Configuration;
using Sitecore.Diagnostics;
using Sitecore.Shell.Framework.Commands;

namespace Sitecore.Sandbox.Invokers.Commands
{
    public class CommandInvoker : ICommandInvoker
    {
        private static ICommandInvoker NullCommandInvoker { get; set; }

        private Command Command { get; set; }

        private ICommandInvoker nextInvoker;
        private ICommandInvoker NextInvoker 
        { 
            get
            {
                return nextInvoker ?? NullCommandInvoker;
            }
            set
            {
                nextInvoker = value;
            }
        }

        static CommandInvoker()
        {
            NullCommandInvoker = CreateNullCommandInvoker();
        }

        public CommandInvoker()
        {
        }

        public bool HasCommand()
        {
            return Command != null;
        }

        public void SetCommand(string commandName)
        {
            Assert.ArgumentNotNullOrEmpty(commandName, "commandName");
            Command = GetCommand(commandName);
            Assert.IsNotNull(Command, "commandName", "commandName is not a valid command!");
        }

        public void SetNextInvoker(ICommandInvoker nextInvoker)
        {
            Assert.ArgumentNotNull(nextInvoker, "nextInvoker");
            NextInvoker = nextInvoker;
        }

        public bool CanInvoke(CommandContext commandContext)
        {
            Assert.ArgumentNotNull(commandContext, "commandContext");
            if(!HasCommand())
            {
                return false;
            }
            
            return Command.QueryState(commandContext) == CommandState.Enabled && NextInvoker.CanInvoke(commandContext);
        }

        public void Invoke(CommandContext commandContext)
        {
            Assert.ArgumentNotNull(commandContext, "commandContext");
            if(!HasCommand())
            {
                return;
            }

            Command.Execute(commandContext);
            NextInvoker.Invoke(commandContext);
        }

        protected virtual Command GetCommand(string commandName)
        {
            return CommandManager.GetCommand(commandName);
        }

        private static ICommandInvoker CreateNullCommandInvoker()
        {
            ICommandInvoker nullCommandInvoker = Factory.CreateObject("commandInvokers/nullCommandInvoker", true) as ICommandInvoker;
            Assert.IsNotNull(nullCommandInvoker, "nullCommandInvoker", "nullCommandInvoker must be set correctly in configuration!");
            return nullCommandInvoker;
        }
    }
}

There is a lot going on in the class above, so let me try to briefly capture the main things.

The SetCommand() method in the class above takes in the name of the command and delegates to the GetCommand() method which looks it up using the GetCommand() method on Sitecore.Shell.Framework.Commands.CommandManager in Sitecore.Kernel.dll.

The SetNextInvoker() method will chain the current CommandInvoker instance with another class instance that implements the ICommandInvoker interface — this is the NextInvoker.

The CanInvoke() method basically checks to see if the current CommandInvoker instance has a non-null Sitecore.Shell.Framework.Commands.Command instance set within it; ascertains whether the Sitecore.Shell.Framework.Commands.Command instance is enabled; and determines if the NextInvoker can be invoked.

The Invoke() method calls the Execute() method on the Sitecore.Shell.Framework.Commands.Command instance, and then calls the Invoke() method on the class instance’s NextInvoker.

One thing I’d like to point out is an instance of the Null Object class that was defined above is used when the NextInvoker is not set — this is why a null check is not done in the CanInvoke() and Invoke() methods on the NextInvoker instance.

I then built the following Sitecore.Shell.Framework.Commands.Command subclass which is to be wired-up to a menu option of some type in the Core database:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Xml;

using Sitecore.Collections;
using Sitecore.Configuration;
using Sitecore.Diagnostics;
using Sitecore.Shell.Framework.Commands;
using Sitecore.Web;

using Sitecore.Sandbox.Invokers.Commands;

namespace Sitecore.Sandbox.Shell.Framework.Commands
{
    public class ChainOfResponsibilityCommand : Command
    {
        private ICommandInvoker commandInvoker;
        private ICommandInvoker CommandInvoker 
        { 
            get
            {
                if(commandInvoker == null)
                {
                    commandInvoker = GetCommandInvoker();
                }

                return commandInvoker;
            }
        }

        public override void Execute(CommandContext context)
        {
            if (!CommandInvoker.CanInvoke(context))
            {
                return;
            }

            CommandInvoker.Invoke(context);
        }

        public override CommandState QueryState(CommandContext context)
        {
            if(!CommandInvoker.CanInvoke(context))
            {
                return CommandState.Hidden;
            }

            return CommandState.Enabled;
        }

        private ICommandInvoker GetCommandInvoker()
        {
            ICommandInvoker firstInvoker = CreateNewCommandInvoker();
            IEnumerable<string> commandNames = GetCommandNames(GetParameters());
            if(commandNames == null || !commandNames.Any())
            {
                return firstInvoker;
            }
            
            ICommandInvoker invoker = firstInvoker;
            invoker.SetCommand(commandNames.First());
            commandNames = commandNames.Skip(1).ToList();
            if (!commandNames.Any())
            {
                return firstInvoker;
            }

            foreach(string commandName in commandNames)
            {
                ICommandInvoker nextInvoker = CreateNewCommandInvoker();
                nextInvoker.SetCommand(commandName);
                invoker.SetNextInvoker(nextInvoker);
                invoker = nextInvoker;
            }

            return firstInvoker;
        }

        private IEnumerable<string> GetCommandNames(SafeDictionary<string> parameters)
        {
            string commands = GetCommandsString(parameters);
            char[] delimiters = GetCommandsDelimiters(parameters);

            if (string.IsNullOrWhiteSpace(commands) || delimiters == null || !delimiters.Any())
            {
                return new List<string>();
            }

            return commands.Split(delimiters, StringSplitOptions.RemoveEmptyEntries);
        }

        protected virtual string GetCommandsString(SafeDictionary<string> parameters)
        {
            return parameters["commands"];
        }

        private char[] GetCommandsDelimiters(SafeDictionary<string> parameters)
        {
            string delimiters = GetDelimitersString(parameters);
            if (string.IsNullOrWhiteSpace(delimiters))
            {
                return new char[] { };
            }

            return GetDelimitersString(parameters).ToCharArray();
        }

        protected virtual string GetDelimitersString(SafeDictionary<string> parameters)
        {
            return parameters["delimiters"];
        }

        protected virtual SafeDictionary<string> GetParameters()
        {
            XmlNode xmlNode = Factory.GetConfigNode(string.Format("commands/command[@name='{0}']", Name));
            string parametersValue = GetAttributeValue(xmlNode, "parameters");
            if (string.IsNullOrWhiteSpace(parametersValue))
            {
                return new SafeDictionary<string>();
            }
           
            return WebUtil.ParseQueryString(xmlNode.Attributes["parameters"].Value);
        }

        private string GetAttributeValue(XmlNode xmlNode, string attributeName)
        {
            if (xmlNode == null || xmlNode.Attributes[attributeName] == null || string.IsNullOrWhiteSpace(xmlNode.Attributes[attributeName].Value))
            {
                return string.Empty;
            }

            return xmlNode.Attributes[attributeName].Value;
        }

        protected static ICommandInvoker CreateNewCommandInvoker()
        {
            ICommandInvoker commandInvoker = Factory.CreateObject("commandInvokers/defaultCommandInvoker", true) as ICommandInvoker;
            Assert.IsNotNull(commandInvoker, "commandInvoker", "commandInvoker must be set correctly in configuration!");
            return commandInvoker;
        }
    }
}

The Command above reads the list of commands to chain together from Sitecore configuration — this is coming from an attribute on the Command’s configuration element which you will see in the configuration file below — and builds up a linked list of ICommandInvoker instances via the GetCommandInvoker() method.

The QueryState() method simply checks to see if the linked list of ICommandInvoker instances can be invoked, and the Execute() — which also performs the same check as is done in the QueryState() method — ultimately calls the Invoke() method on the first ICommandInvoker instance — this will cascade throughout the entire linked list.

I then wired everything up in the following Sitecore configuration file:

<?xml version="1.0" encoding="utf-8" ?>
<configuration xmlns:patch="http://www.sitecore.net/xmlconfig/">
  <sitecore>
    <commands>
      <command name="item:MoveRenamePublish" parameters="commands=item:moveto|item:rename|item:publish&amp;delimiters=|"  type="Sitecore.Sandbox.Shell.Framework.Commands.ChainOfResponsibilityCommand, Sitecore.Sandbox"/>
      <command name="item:MoveLastPublish" parameters="commands=item:movelast|item:publish&amp;delimiters=|"  type="Sitecore.Sandbox.Shell.Framework.Commands.ChainOfResponsibilityCommand, Sitecore.Sandbox"/>
    </commands>
    <commandInvokers>
      <defaultCommandInvoker type="Sitecore.Sandbox.Invokers.Commands.CommandInvoker, Sitecore.Sandbox" singleInstance="false" />
      <nullCommandInvoker type="Sitecore.Sandbox.Invokers.Commands.NullCommandInvoker, Sitecore.Sandbox" singleInstance="false" />
    </commandInvokers>
  </sitecore>
</configuration>

I defined two different commands in the above configuration file to test whether the ChainOfResponsibilityCommand class can be reused for multiple Sheer UI commands.

I then set up two different buttons in the ribbon for the two command elements in the configuration file above:

item:MoveRenamePublish:

move-rename-publish-ribbon-core

item:MoveLastPublish:

move-last-publish-ribbon-core

Let’s take this for a spin.

Let’s move, rename and publish the following Sitecore Item:

cat-page-one-move-rename-publish-1

I clicked the button, and was presented with this dialog:

cat-page-one-move-rename-publish-2

I was then prompted with this dialog after the Item was moved to the selected destination:

cat-page-one-move-rename-publish-3

I renamed the Item, and was prompted with the publishing dialog:

cat-page-one-move-rename-publish-4

Ok, that appears to be working. Let’s try out the other Ribbon button. Let’s try it on this Item:

sub-page-one-move-last-publish-1

After the Item was moved, I was prompted with the publishing dialog:

sub-page-one-move-last-publish-2

As you can see, this worked as well.

I will say that although I had fun implementing this solution, it is way more complex than the solution I had built over two years ago in my older post.

This brings up an important point I want to make regarding design patterns: don’t use a design pattern because it may seem like a cool thing to do, or because your crazy developer cousin who always carries around a copy of the Gang Of Four book on design patterns says all solutions should implement them always.

Use them wisely.

if you see an opportunity to use one where it will save time when introducing new features moving forward, or it makes it easy to swap-in/out features, then by all means go for it. Otherwise, the KISS principle is a better “rule of thumb” to follow.

If you have any thoughts on this, please drop a comment.