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so i have got a type Genre with Property Name on it.

Im creating a list of Genre Names like below.

let genres = new Genre()
    [ genres.Name <- "Disco"; 
      genres.Name <- "Jazz"; 
      genres.Name <- "Rock"; ] |>ignore

Wondering if there is more succint way of creating this ?.

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4  
Note that your code probably doesn't do what you think - you are creating a single Genre and setting its name three different times. –  kvb Feb 6 '12 at 15:28

4 Answers 4

up vote 4 down vote accepted
["Disco"; "Jazz"; "Rock"]
|> List.map (fun name -> Genre(name))
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+1, simple and generic. –  pad Feb 6 '12 at 15:19
    
I quite like John's idea , but bit torn between which one to choose. Anyhow maybe chose yours. Thanks Daniel. –  netmatrix01 Feb 6 '12 at 15:19
    
My take: ["Disco"; "Jazz"; "Rock"] |> List.map Genre –  pblasucci Feb 6 '12 at 15:31
    
@pblasucci: I wish that works, but constructors can't be used as first-class functions. You could, however, use a static factory method, but I'm not sure it would save many keystrokes. –  Daniel Feb 6 '12 at 15:33
    
@Daniel: Ah, good point. I had missed that it was a constructor. –  pblasucci Feb 6 '12 at 16:48

The code in your example creates just a single Genre object and then creates a list of unit values. A unit value is a bit like void in C# - it is the result of perfroming an expression that does not return anything, but has a side-effect. In your case, the side-effect is modifying the Name property of the single instance (that's what the <- operator does), so you end with a single genres value whose Name is "Rock".

There are numerous ways to change the code to do what you want - to start with what you wrote:

let genre = new Genre() 
genre.Name <- "Disco"

This creates a single genre value, so you could create values genre1, genre2 and genre3 and then turn them into a list using:

let genres = [ genre1; genre2; genre3 ]

That would be quite a lot of repetition. If you have a default constructor for Genre that takes the name, you can just write Genre("Disco"). If you don't, you can use F# object initialization syntax and specify the value of the property during the construction as Genre(Name="Disco"). Note you can also omit new if the object does not implement IDisposable.

Now you can construct a list like this:

let genres = [ Genre(Name="Disco"); Genre(Name="Jazz"); Genre(Name="Rock") ]

Now, you can start using functional features like List.map (as suggested by Daniel) or F# list comprehension syntax to make the construction even shorter. In this case, I would probably prefer list comprehension and I'd write:

let genres = [ for name in ["Disco"; "Jazz"; "Rock"] -> Genre(Name = name) ]

This does the same thing as List.map, but using an F# syntax that has been designed for this purpose.

EDIT: Aside, using mutable properties in F# is not always the best way to go. You could try solving the same problem using F# records, which give you an easy way to create copies with modified properties. For example:

// A genre has a name and an era
type Genre = { Name : string; Era : string; }

// Create a template with the basic properties set
let template = { Name = "Default"; Era = "Twentieth century" }

// Create a list of 20th century genres
let genres = [ { template with Name = "Disco" }
               { template with Name = "Jazz" }
               { template with Name = "Rock" } ]

Unlike in the previous case, records are immutable and so you don't risk the confusion that is caused when you create a mutable object and then mutate it. Here, you get a list of three different objects (that are created by copying the template).

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How does "designed for this purpose" apply more to list comprehension syntax than List.map? –  Daniel Feb 6 '12 at 15:52
    
@Tomas, thanks for the explanation, I wasn't aware of F# object initialization syntax. Was infact wondering there must be similar way as we do in C#. Nice. –  netmatrix01 Feb 6 '12 at 16:00
1  
@Daniel "designed for this purpose" applies to both, but "syntax designed for this purpose" applies only to comprehension syntax. I'm not implying that comprehension syntax is better, just because it exists, but I think it looks nicer in this case (if you could use constructor as first-class function, I would prefer List.map too). –  Tomas Petricek Feb 6 '12 at 16:06

I think the simplest way would be to use a construcotr which did the assignment for you, then you could write

let genres = Genre("Disco")::Genre("Jazz")::Genre("Rock")::[]
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9  
I would argue that [ Genre("Disco"); Genre("Jazz"); Genre("Rock") ] is better syntax. –  ChaosPandion Feb 6 '12 at 15:09
    
Like your idea, thanks , should have thought about it. –  netmatrix01 Feb 6 '12 at 15:17

Slightly more terser:

type Genre = Genre of string
let genres = List.map Genre ["Disco"; "Jazz"; "Rock"]

printfn "%A" genres

Prints [Genre "Disco"; Genre "Jazz"; Genre "Rock"].

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He wants to create Genre objects. Your solution makes Genre discriminated unions. –  pad Feb 6 '12 at 16:37
    
@pad, a discriminated union with one case would technically be isomorphic to a record definition. –  missingfaktor Feb 6 '12 at 16:39
    
@pad, I understand the OP is probably using class, but I am just providing an alternative. –  missingfaktor Feb 6 '12 at 16:40

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