Implementing INotifyPropertyChanged - does a better way exist?

Question

Microsoft should have implemented something snappy for INotifyPropertyChanged, like in the automatic properties, just specify {get;set;notify;} I think it makes a lot of sense to do it. Or are there any complications to do it?

Can we ourselves implement something like 'notify' in our properties. Is there a graceful solution for implementing INotifyPropertyChanged in your class or the only way to do it is by raising the PropertyChanged event in each property.

If not can we write something to autogenerate the peice of code to raise PropertyChanged event?

Answer 1

Without using something like postsharp, the minimal version I use uses something like:

public class Data : INotifyPropertyChanged
{
    // boiler-plate
    public event PropertyChangedEventHandler PropertyChanged;
    protected virtual void OnPropertyChanged(string propertyName)
    {
        PropertyChangedEventHandler handler = PropertyChanged;
        if (handler != null) handler(this, new PropertyChangedEventArgs(propertyName));
    }
    protected bool SetField<T>(ref T field, T value, string propertyName)
    {
        if (EqualityComparer<T>.Default.Equals(field, value)) return false;
        field = value;
        OnPropertyChanged(propertyName);
        return true;
    }

    // props
    private string name;
    public string Name
    {
        get { return name; }
        set { SetField(ref name, value, "Name"); }
    }
}

Each property is then just something like:

    private string name;
    public string Name
    {
        get { return name; }
        set { SetField(ref name, value, "Name"); }
    }

which isn't huge; it can also be used as a base-class if you want. The bool return from SetField tells you if it was a no-op, in case you want to apply other logic.

Answer 2

I really like Marc's solution, but I think it can be slightly improved to avoid using a "magic string" (which doesn't support refactoring). Instead of using the property name as a string, it's easy to make it a lambda expression :

private string name;
public string Name
{
    get { return name; }
    set { SetField(ref name, value, () => Name); }
}

Just add the following methods to Marc's code, it will do the trick :

    protected virtual void OnPropertyChanged<T>(Expression<Func<T>> selectorExpression)
    {
        if (selectorExpression == null)
            throw new ArgumentNullException("selectorExpression");
        MemberExpression body = selectorExpression.Body as MemberExpression;
        if (body == null)
            throw new ArgumentException("The body must be a member expression");
        OnPropertyChanged(body.Member.Name);
    }

    protected bool SetField<T>(ref T field, T value, Expression<Func<T>> selectorExpression)
    {
        if (EqualityComparer<T>.Default.Equals(field, value)) return false;
        field = value;
        OnPropertyChanged(selectorExpression);
        return true;
    }

BTW, this was inspired by this blog post

Answer 3

A very AOP-like approach is to inject the INotifyPropertyChanged stuff onto an already instantiated object on the fly. You can do this with something like Castle DynamicProxy. Here is an article that explains the technique:

Adding INotifyPropertyChanged to an existing object

Answer 4

Talk about massive overengineering. This is significantly more complex than just doing it the right way and gives little to no benefit. If your IDE supports code snippets (Visual Studio/MonoDevelop do) then you can make implementing this ridiculously simple. All you'd actually have to type is the type of the property and the property name. The extra three lines of code will be autogenerated.

Answer 5

I haven't actually had a chance to try this myself yet, but next time I'm setting up a project with a big requirement for INotifyPropertyChanged I'm intending on writing a Postsharp attribute that will inject the code at compile time. Something like:

[NotifiesChange]
public string FirstName { get; set; }

Will become:

private string _firstName;

public string FirstName
{
   get { return _firstname; }
   set
   {
      if (_firstname != value)
      {
          _firstname = value;
          OnPropertyChanged("FirstName")
      }
   }
}

I'm not sure if this will work in practice and I need to sit down and try it out, but I don't see why not. I may need to make it accept some parameters for situations where more than one OnPropertyChanged needs to be triggered (if, for example, I had a FullName property in the class above)

Currently I'm using a custom template in Resharper, but even with that I'm getting fed up of all my properties being so long.

---

Ah, a quick Google search (which I should have done before I wrote this) shows that at least one person has done something like this before here. Not exactly what I had in mind, but close enough to show that the theory is good.

Answer 6

As of .Net 4.5 there is finally an easy way to do this.

.Net 4.5 introduces a new Caller Information Attributes.

private void OnPropertyChanged<T>([CallerMemberName]string caller = null) {
     // make sure only to call this if the value actually changes

     var handler = PropertyChanged;
     if (handler != null) {
        handler(this, new PropertyChangedEventArgs(caller));
     }
}

It's probably a good idea to add a comparer to the function as well.

EqualityComparer<T>.Default.Equals

More examples here and here

Answer 7

Other things you may want to consider when implementing these sorts of properties is the fact that the INotifyPropertyChang *ed *ing both use event argument classes.

If you have a large number of properties that are being set then the number of event argument class instances can be huge, you should consider caching them as they are one of the areas that a string explosion can occur.

Take a look at this implementation and explanation of why it was conceived.

Josh Smiths Blog

Answer 8

I have just found ActiveSharp - Automatic INotifyPropertyChanged, I have yet to use it, but it looks good.

To quote from it's web site...

---

Send property change notifications without specifying property name as a string.

Instead, write properties like this:

public int Foo
{
    get { return _foo; }
    set { SetValue(ref _foo, value); }  // <-- no property name here
}

Note that there is no need to include the name of the property as a string. ActiveSharp reliably and correctly figures that out for itself. It works based on the fact that your property implementation passes the backing field (_foo) by ref. (ActiveSharp uses that "by ref" call to identify which backing field was passed, and from the field it identifies the property).

Answer 9

Let me introduce my own approach called Yappi. It belongs to Runtime proxy|derived class generators, adding new functionality to an existing object or type, like Caste Project's Dynamic Proxy.

It allows to implement INotifyPropertyChanged once in base class, and then declare derived classes in following style, still supporting INotifyPropertyChanged for new properties:

public class Animal:Concept
{
    protected Animal(){}
    public virtual string Name { get; set; }
    public virtual int Age { get; set; }
}

Complexity of derived class or proxy construction can be hidden behind the following line:

var animal = Concept.Create<Animal>.New();

And all INotifyPropertyChanged implementation work can be done like this:

public class Concept:INotifyPropertyChanged
{
    //Hide constructor
    protected Concept(){}

    public static class Create<TConcept> where TConcept:Concept
    {
        //Construct derived Type calling PropertyProxy.ConstructType
        public static readonly Type Type = PropertyProxy.ConstructType<TConcept, Implementation<TConcept>>(new Type[0], true);
        //Create constructing delegate calling Constructor.Compile
        public static Func<TConcept> New = Constructor.Compile<Func<TConcept>>(Type);
    }


    public event PropertyChangedEventHandler PropertyChanged;

    protected void OnPropertyChanged(PropertyChangedEventArgs eventArgs)
    {
        var caller = PropertyChanged;
        if(caller!=null)
        {
            caller(this, eventArgs);
        }
    }

    //define implementation
    public class Implementation<TConcept> : DefaultImplementation<TConcept> where TConcept:Concept
    {
        public override Func<TBaseType, TResult> OverrideGetter<TBaseType, TDeclaringType, TConstructedType, TResult>(PropertyInfo property)
        {
            return PropertyImplementation<TBaseType, TDeclaringType>.GetGetter<TResult>(property.Name);
        }
        /// <summary>
        /// Overriding property setter implementation.
        /// </summary>
        /// <typeparam name="TBaseType">Base type for implementation. TBaseType must be TConcept, and inherits all its constraints. Also TBaseType is TDeclaringType.</typeparam>
        /// <typeparam name="TDeclaringType">Type, declaring property.</typeparam>
        /// <typeparam name="TConstructedType">Constructed type. TConstructedType is TDeclaringType and TBaseType.</typeparam>
        /// <typeparam name="TResult">Type of property.</typeparam>
        /// <param name="property">PropertyInfo of property.</param>
        /// <returns>Delegate, corresponding to property setter implementation.</returns>
        public override Action<TBaseType, TResult> OverrideSetter<TBaseType, TDeclaringType, TConstructedType, TResult>(PropertyInfo property)
        {
            //This code called once for each declared property on derived type's initialization.
            //EventArgs instance is shared between all events for each concrete property.
            var eventArgs = new PropertyChangedEventArgs(property.Name);
            //get delegates for base calls.
            Action<TBaseType, TResult> setter = PropertyImplementation<TBaseType, TDeclaringType>.GetSetter<TResult>(property.Name);
            Func<TBaseType, TResult> getter = PropertyImplementation<TBaseType, TDeclaringType>.GetGetter<TResult>(property.Name);

            var comparer = EqualityComparer<TResult>.Default;

            return (pthis, value) =>
            {//This code executes each time property setter is called.
                if (comparer.Equals(value, getter(pthis))) return;
                //base. call
                setter(pthis, value);
                //Directly accessing Concept's protected method.
                pthis.OnPropertyChanged(eventArgs);
            };
        }
    }
}

It is fully safe for refactoring, uses no reflection after type construction and fast enough.