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I would like to implement a map from selected objects to property entries in property editor. For example like in Visual Studio xaml editor.

The target map is something like this (or maybe using ReactiveCollection from ReactiveUI?)

 Selected objects             Filled categories to display in PropertyEditor  
 -------------------------    ---------------------------------------
 ObservableCollection<obj> -> ObservableCollection<Category>

The map in plain English:

  1. Collect all unique property types from objects
  2. Group by category (e.g. Text, Layout)
  3. Add/Remove categories as necessary to reflect selected objects
  4. Add/Remove properties from existing categories as necessary

The challenge is to have declarative/functional code without add/remove branches. (I do already have an imperative/event based code which is quite ugly and error prone.)

I think we could assume that Category and Property collections are sets with the usual operations: Union, Substract, and IsMember.

The inspiration is the code from ReactiveUI by Paul Betts which is beatiful for simple one-to-one map:

var Models = new ReactiveCollection<ModelClass>();
var ViewModels = Models.CreateDerivedCollection(x => new ViewModelForModelClass(x));
// Now, adding / removing Models means we
// automatically have a corresponding ViewModel
Models.Add(new Model(”Hello!”));
ViewModels.Count();
>>> 1

Using Seq and F# the straightforward nonobservable map would look like this:

selectedObjects
|> Seq.collect GetProperties |> Seq.unique |> Seq.groupBy GetPropertyCategory
|> Seq.map (fun categoryName properies -> CreateCategory(properties))

The above code is fine in theory but in practice it would recreate all the view models from scratch on each change in selected objects. What I would love to achieve with Rex is to have the version of the above map with incremental updates, so the WPF will update only the changed parts of the GUI.

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1 Answer 1

up vote 4 down vote accepted

This is a very interesting problem :-). Sadly, I don't think there is any F# library that allows you to solve that easily. As far as I can tell, Bindable LINQ was one attempt to implement LINQ query pattern (i.e. Select, SelectMany and Where methods) for ObservableCollection<T>, which is essentially what you need. To use it from F#, you could wrap LINQ operations in functions like map etc.

As you say, functions like Seq.map work by on IEnumerable and so they are not incremental. What you'd need here are functions like map, filter and collect, but implemented over ObservableCollection<'T> in such a way that they do the changes incrementally - when new element is added to the source collection, the map function would process it and add a new element to the resulting collection.

I experimented with that a bit and here is an implementation of map that is incremental:

open System.Collections.Specialized
open System.Collections.ObjectModel

module ObservableCollection =
  /// Initialize observable collection
  let init n f = ObservableCollection<_>(List.init n f)

  /// Incremental map for observable collections
  let map f (oc:ObservableCollection<'T>) =
    // Create a resulting collection based on current elements
    let res = ObservableCollection<_>(Seq.map f oc)
    // Watch for changes in the source collection
    oc.CollectionChanged.Add(fun change ->
      printfn "%A" change.Action
      match change.Action with
      | NotifyCollectionChangedAction.Add ->
          // Apply 'f' to all new elements and add them to the result
          change.NewItems |> Seq.cast<'T> |> Seq.iteri (fun index item ->
            res.Insert(change.NewStartingIndex + index, f item))
      | NotifyCollectionChangedAction.Move ->
          // Move element in the resulting collection
          res.Move(change.OldStartingIndex, change.NewStartingIndex)
      | NotifyCollectionChangedAction.Remove ->
          // Remove element in the result
          res.RemoveAt(change.OldStartingIndex)
      | NotifyCollectionChangedAction.Replace -> 
          // Replace element with a new one (processed using 'f')
          change.NewItems |> Seq.cast<'T> |> Seq.iteri (fun index item ->
            res.[change.NewStartingIndex + index] <- f item)
      | NotifyCollectionChangedAction.Reset ->
          // Clear everything
          res.Clear()
      | _ -> failwith "Unexpected action!" )
    res

Implementing map was quite easy, but I'm afraid that functions like collect and groupBy will be quite tricky. Anyway, here is a sample showing how you can use it:

let src = ObservableCollection.init 5 (fun n -> n)
let res = ObservableCollection.map (fun x -> printfn "processing %d" x; x * 10) src

src.Move(0, 1)
src.Remove(0)
src.Clear()
src.Add(5)
src.Insert(0, 3)
src.[0] <- 1

// Compare the original and the result
printfn "%A" (Seq.zip src res |> List.ofSeq)
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Thank you Tomas! Now I am developing it in a small library. For example: map : ('T -> 'A) -> RxSeq<'T> -> RxSeq<'A> where type RxSeq<'T> = IObservableWithState<RxSeqUpdate<'T>, ObservableCollection<'T>> –  Alfa07 Sep 5 '12 at 20:02
    
@Alfa07 Nice! Are you going to share the library somewhere? If so, perhaps I could contribute a few more functions. –  Tomas Petricek Sep 6 '12 at 1:19
    
Yes, sure! It would be great! As soon as I get in reasonable shape I will share it and send the link to you. –  Alfa07 Sep 6 '12 at 16:39

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