The quick answer is to use a
for() loop in place of your
foreach() loops. Something like:
@for(var themeIndex = 0; themeIndex < Model.Theme.Count(); themeIndex++)
@Html.LabelFor(model => model.Theme[themeIndex])
@for(var productIndex=0; productIndex < Model.Theme[themeIndex].Products.Count(); productIndex++)
@for(var orderIndex=0; orderIndex < Model.Theme[themeIndex].Products[productIndex].Orders; orderIndex++)
@Html.TextBoxFor(model => model.Theme[themeIndex].Products[productIndex].Orders[orderIndex].Quantity)
@Html.TextAreaFor(model => model.Theme[themeIndex].Products[productIndex].Orders[orderIndex].Note)
@Html.EditorFor(model => model.Theme[themeIndex].Products[productIndex].Orders[orderIndex].DateRequestedDeliveryFor)
But this glosses over why this fixes the problem.
There are three things that you have at least a cursory understanding before you can resolve this issue. I have
to admit that I cargo-culted this
for a long time when I started working with the framework. And it took me quite a while
to really get what was going on.
Those three things are:
- How do the
LabelFor and other
...For helpers work in MVC?
- What is an Expression Tree?
- How does the Model Binder work?
All three of these concepts link together to get an answer.
How do the
LabelFor and other
...For helpers work in MVC?
So, you've used the
HtmlHelper<T> extensions for
TextBoxFor and others, and
you probably noticed that when you invoke them, you pass them a lambda and it magically generates
some html. But how?
So the first thing to notice is the signature for these helpers. Lets look at the simplest overload for
public static MvcHtmlString TextBoxFor<TModel, TProperty>(
this HtmlHelper<TModel> htmlHelper,
Expression<Func<TModel, TProperty>> expression
First, this is an extension method for a strongly typed
HtmlHelper, of type
<TModel>. So, to simply
state what happens behind the scenes, when razor renders this view it generates a class.
Inside of this class is an instance of
HtmlHelper<TModel> (as the property
Html, which is why you can use
TModel is the type defined in your
@model statement. So in your case, when you are looking at this view
will always be of the type
Now, the next argument is a bit tricky. So lets look at an invocation
It looks like we have a little lambda, And if one were to guess the signature, one might think that the type for
this argument would simply be a
Func<TModel, TProperty>, where
TModel is the type of the view model and
is inferred as the type of the property.
But thats not quite right, if you look at the actual type of the argument its
So when you normally generate a lambda, the compiler takes the lambda and compiles it down into MSIL, just like any other
function (which is why you can use delegates, method groups, and lambdas more or less interchangeably, because they are just
However, when the compiler sees that the type is an
Expression<>, it doesn't immediately compile the lambda down to MSIL, instead it generates an
So, what the heck is an expression tree. Well, it's not complicated but its not a walk in the park either. To quote ms:
| Expression trees represent code in a tree-like data structure, where each node is an expression, for example, a method call or a binary operation such as x < y.
Simply put, an expression tree is a representation of a function as a collection of "actions".
In the case of
model=>model.SomeProperty, the expression tree would have a node in it that says: "Get 'Some Property' from a 'model'"
This expression tree can be compiled into a function that can be invoked, but as long as it's an expression tree, it's just a collection of nodes.
So what is that good for?
Action<>, once you have them, they are pretty much atomic. All you can really do is
Invoke() them, aka tell them to
do the work they are supposed to do.
Expression<Func<>> on the other hand, represents a collection of actions, which can be appended, manipulated, visited, or compiled and invoked.
So why are you telling me all this?
So with that understanding of what an
Expression<> is, we can go back to
Html.TextBoxFor. When it renders a textbox, it needs
to generate a few things about the property that you are giving it. Things like
attributes on the property for validation, and specifically
in this case it needs to figure out what to name the
It does this by "walking" the expression tree and building a name. So for an expression like
model=>model.SomeProperty, it walks the expression
gathering the properties that you are asking for and builds
For a more complicated example, like
model=>model.Foo.Bar.Baz.FooBar, it might generate
<input name="Foo.Bar.Baz.FooBar" value="[whatever FooBar is]" />
Make sense? It is not just the work that the
Func<> does, but how it does its work is important here.
(Note other frameworks like LINQ to SQL do similar things by walking an expression tree and building a different grammar, that this case a SQL query)
How does the Model Binder work?
So once you get that, we have to briefly talk about the model binder. When the form gets posted, it's simply like a flat
Dictionary<string, string>, we have lost the hierarchical structure our nested view model may have had. It's the
model binder's job to take this key-value pair combo and attempt to rehydrate an object with some properties. How does it do
this? You guessed it, by using the "key" or name of the input that got posted.
So if the form post looks like
Foo.Bar.Baz.FooBar = Hello
And you are posting to a model called
SomeViewModel, then it does the reverse of what the helper did in the first place. It looks for
a property called "Foo". Then it looks for a property called "Bar" off of "Foo", then it looks for "Baz"... and so on...
Finally it tries to parse the value into the type of "FooBar" and assign it to "FooBar".
And voila, you have your model. The instance the Model Binder just constructed gets handed into requested Action.
So your solution doesn't work because the
Html.[Type]For() helpers need an expression. And you are just giving them a value. It has no idea
what the context is for that value, and it doesn't know what to do with it.
Now some people suggested using partials to render. Now this in theory will work, but probably not the way that you expect. When you render a partial, you are changing the type of
TModel, because you are in a different view context. This means that you can describe
your property with a shorter expression. It also means when the helper generates the name for your expression, it will be shallow. It
will only generate based on the expression it's given (not the entire context).
So lets say you had a partial that just rendered "Baz" (from our example before). Inside that partial you could just say:
That means that it will generate an input tag like this:
<input name="FooBar" />
Which, if you are posting this form to an action that is expecting a large deeply nested ViewModel, then it will try to hydrate a property
FooBar off of
TModel. Which at best isn't there, and at worst is something else entirely. If you were posting to a specific action that was accepting a
Baz, rather than the root model, then this would work great! In fact, partials are a good way to change your view context, for example if you had a page with multiple forms that all post to different actions, then rendering a partial for each one would be a great idea.
Now once you get all of this, you can start to do really interesting things with
Expression<>, by programatically extending them and doing
other neat things with them. I won't get into any of that. But, hopefully, this will
give you a better understanding of what is going on behind the scenes and why things are acting the way that they are.