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What are the key differences between the approaches taken by Scala and F# to unify OO and FP paradigms?

EDIT

What are the relative merits and demerits of each approach? If, in spite of the support for subtyping, F# can infer the types of function arguments then why can't Scala?

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Could we compare O'Caml too? –  Ken Bloom May 25 '10 at 13:50
    
@Ken, Yeah sure. –  Nikit Batale May 25 '10 at 13:54
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@Dario It would be possible to define it objectively if people could agreed on common definitions for OO and FP. That, however, is manifestly not the case. –  Daniel C. Sobral May 25 '10 at 22:12
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Good question. You might as well include Clojure in this question too. –  Michiel Borkent May 25 '10 at 23:27
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@Michiel I'd prefer a separate question for that. Or perhaps even a question asking how Clojure unify the paradigms, and how that generally compare to other languages. Otherwise, the answers start ot loose focus. –  Daniel C. Sobral May 26 '10 at 4:21

7 Answers 7

up vote 33 down vote accepted

I have looked at F#, doing low level tutorials, so my knowledge of it is very limited. However, it was apparent to me that its style was essentially functional, with OO being more like an add on -- much more of an ADT + module system than true OO. The feeling I get can be best described as if all methods in it were static (as in Java static).

See, for instance, any code using the pipe operator (|>). Take this snippet from the wikipedia entry on F#:

[1 .. 10]
|> List.map     fib

(* equivalent without the pipe operator *)
List.map fib [1 .. 10]

The function map is not a method of the list instance. Instead, it works like a static method on a List module which takes a list instance as one of its parameters.

Scala, on the other hand, is fully OO. Let's start, first, with the Scala equivalent of that code:

List(1 to 10) map fib

// Without operator notation or implicits:
List.apply(Predef.intWrapper(1).to(10)).map(fib)

Here, map is a method on the instance of List. Static-like methods, such as intWrapper on Predef or apply on List, are much more uncommon. Then there are functions, such as fib above. Here, fib is not a method on int, but neither it is a static method. Instead, it is an object -- the second main difference I see between F# and Scala.

Let's consider the F# implementation from the Wikipedia, and an equivalent Scala implementation:

// F#, from the wiki
let rec fib n =
    match n with
    | 0 | 1 -> n
    | _ -> fib (n - 1) + fib (n - 2)

// Scala equivalent
def fib(n: Int): Int = n match {
  case 0 | 1 => n
  case _ => fib(n - 1) + fib(n - 2)
}

The above Scala implementation is a method, but Scala converts that into a function to be able to pass it to map. I'll modify it below so that it becomes a method that returns a function instead, to show how functions work in Scala.

// F#, returning a lambda, as suggested in the comments
let rec fib = function 
    | 0 | 1 as n -> n 
    | n -> fib (n - 1) + fib (n - 2)

// Scala method returning a function
def fib: Int => Int = {
  case n @ (0 | 1) => n
  case n => fib(n - 1) + fib(n - 2)
}

// Same thing without syntactic sugar:
def fib = new Function1[Int, Int] {
  def apply(param0: Int): Int = param0 match {
    case n @ (0 | 1) => n
    case n => fib.apply(n - 1) + fib.apply(n - 2)
  }
}

So, in Scala, all functions are objects implementing the trait FunctionX, which defines a method called apply. As shown here and in the list creation above, .apply can be omitted, which makes function calls look just like method calls.

In the end, everything in Scala is an object -- and instance of a class -- and every such object does belong to a class, and all code belong to a method, which gets executed somehow. Even match in the example above used to be a method, but has been converted into a keyword to avoid some problems quite a while ago.

So, how about the functional part of it? F# belongs to one of the most traditional families of functional languages. While it doesn't have some features some people think are important for functional languages, the fact is that F# is function by default, so to speak.

Scala, on the other hand, was created with the intent of unifying functional and OO models, instead of just providing them as separate parts of the language. The extent to which it was succesful depends on what you deem to be functional programming. Here are some of the things that were focused on by Martin Odersky:

  • Functions are values. They are objects too -- because all values are objects in Scala -- but the concept that a function is a value that can be manipulated is an important one, with its roots all the way back to the original Lisp implementation.

  • Strong support for immutable data types. Functional programming has always been concerned with decreasing the side effects on a program, that functions can be analysed as true mathematical functions. So Scala made it easy to make things immutable, but it did not do two things which FP purists criticize it for:

    • It did not make mutability harder.
    • It does not provide an effect system, by which mutability can be statically tracked.
  • Support for Algebraic Data Types. Algebraic data types (called ADT, which confusingly also stands for Abstract Data Type, a different thing) are very common in functional programming, and are most useful in situations where one commonly use the visitor pattern in OO languages.

    As with everything else, ADTs in Scala are implemented as classes and methods, with some syntactic sugars to make them painless to use. However, Scala is much more verbose than F# (or other functional languages, for that matter) in supporting them. For example, instead of F#'s | for case statements, it uses case.

  • Support for non-strictness. Non-strictness means only computing stuff on demand. It is an essential aspect of Haskell, where it is tightly integrated with the side effect system. In Scala, however, non-strictness support is quite timid and incipient. It is available and used, but in a restricted manner.

    For instance, Scala's non-strict list, the Stream, does not support a truly non-strict foldRight, such as Haskell does. Furthermore, some benefits of non-strictness are only gained when it is the default in the language, instead of an option.

  • Support for list comprehension. Actually, Scala calls it for-comprehension, as the way it is implemented is completely divorced from lists. In its simplest terms, list comprehensions can be thought of as the map function/method shown in the example, though nesting of map statements (supports with flatMap in Scala) as well as filtering (filter or withFilter in Scala, depending on strictness requirements) are usually expected.

    This is a very common operation in functional languages, and often light in syntax -- like in Python's in operator. Again, Scala is somewhat more verbose than usual.

In my opinion, Scala is unparalled in combining FP and OO. It comes from the OO side of the spectrum towards the FP side, which is unusual. Mostly, I see FP languages with OO tackled on it -- and it feels tackled on it to me. I guess FP on Scala probably feels the same way for functional languages programmers.

EDIT

Reading some other answers I realized there was another important topic: type inference. Lisp was a dynamically typed language, and that pretty much set the expectations for functional languages. The modern statically typed functional languages all have strong type inference systems, most often the Hindley-Milner1 algorithm, which makes type declarations essentially optional.

Scala can't use the Hindley-Milner algorithm because of Scala's support for inheritance2. So Scala has to adopt a much less powerful type inference algorithm -- in fact, type inference in Scala is intentionally undefined in the specification, and subject of on-going improvements (it's improvement is one of the biggest features of the upcoming 2.8 version of Scala, for instance).

In the end, however, Scala requires all parameters to have their types declared when defining methods. In some situations, such as recursion, return types for methods also have to be declared.

Functions in Scala can often have their types inferred instead of declared, though. For instance, no type declaration is necessary here: List(1, 2, 3) reduceLeft (_ + _), where _ + _ is actually an anonymous function of type Function2[Int, Int, Int].

Likewise, type declaration of variables is often unnecessary, but inheritance may require it. For instance, Some(2) and None have a common superclass Option, but actually belong to different subclases. So one would usually declare var o: Option[Int] = None to make sure the correct type is assigned.

This limited form of type inference is much better than statically typed OO languages usually offer, which gives Scala a sense of lightness, and much worse than statically typed FP languages usually offer, which gives Scala a sense of heavyness. :-)

Notes:

  1. Actually, the algorithm originates from Damas and Milner, who called it "Algorithm W", according to the wikipedia.

  2. Martin Odersky mentioned in a comment here that:

    The reason Scala does not have Hindley/Milner type inference is that it is very difficult to combine with features such as overloading (the ad-hoc variant, not type classes), record selection, and subtyping

    He goes on to state that it may not be actually impossible, and it came down to a trade-off. Please do go to that link for more information, and, if you do come up with a clearer statement or, better yet, some paper one way or another, I'd be grateful for the reference.

    Let me thank Jon Harrop for looking this up, as I was assuming it was impossible. Well, maybe it is, and I couldn't find a proper link. Note, however, that it is not inheritance alone causing the problem.

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F# also has a syntax sugar version. let rec fib = function | 0 -> 0 | 1 -> 1 | n -> fib (n - 1) + fib (n - 2) –  gradbot May 25 '10 at 23:47
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@gradbot is that truly syntactic sugar, or is it multiple dispatch? When I said syntactic sugar, I meant that the two implementations were exactly equal. Well, the first one extends AbstractFunction1, which implements Function1, but I left that out to keep it simple. The code you produced is clearly not the same, as it returns 0 for 0 and 1 for 1, whereas the original returned n for 0 or 1. The result is the same, but not the implementation. –  Daniel C. Sobral May 26 '10 at 4:18
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@Damiel, As @grandbot said it's just a syntactic sugar. See section 6.6.5 of F# spec (research.microsoft.com/en-us/um/cambridge/projects/fsharp/…). –  missingfaktor May 26 '10 at 8:47
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@Daniel, I think the point you're trying to make is close to being false. Yes, all Scala functions are objects, but methods aren't their own objects by default, and the terminology difference is subtle. (I'm tempted to take my own editor pen to that section of the post to clarifly.) –  Ken Bloom May 26 '10 at 15:46
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@Daniel, if you're going to do it that way, then you should make fib a val. Doing it as a def creates a new function object for each recursive call. That's a lot of garbage. –  Ken Bloom May 26 '10 at 15:47

F# is functional - It allows OO pretty well, but the design and philosophy is functional nevertheless. Examples:

  • Haskell-style functions
  • Automatic currying
  • Automatic generics
  • Type inference for arguments

It feels relatively clumsy to use F# in a mainly object-oriented way, so one could describe the main goal as to integrate OO into functional programming.

Scala is multi-paradigm with focus on flexibility. You can choose between authentic FP, OOP and procedural style depending on what currently fits best. It's really about unifying OO and functional programming.

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That's totally very untrue, it's very useful as a scripting language. –  Patrik Hägne May 25 '10 at 19:14
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Who said functional languages can't be used as scripting languages? That's no contradiction, in fact most useful scripting languages show heavy functional or declarative characteristics. Or do you write huge classes and inheritance trees in your F# scripts? –  Dario May 25 '10 at 19:28
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Personally, I don't find using OO in F# any more painful than in C#, and there are some OO features of F# which I really wish C# had (e.g. object expressions). I agree, though, that OO is even cleaner in Scala. –  kvb May 25 '10 at 20:26
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I like F#'s OO when it's not written to be consumed by another C# project. It has a very light feel to it. If you do some JavaScript OO without using the prototype keyword it will give you a different perspective on Functional/OO mixed code. –  gradbot May 25 '10 at 23:44
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-1: F#'s OOP is far stronger than Scala's FP (e.g. inadequate TCO) so calling Scala multiparadigm but F# not is absurd. –  Jon Harrop May 29 '10 at 14:15

There are quite a few points that you can use for comparing the two (or three). First, here are some notable points that I can think of:

  • Syntax
    Syntactically, F# and OCaml are based on the functional programming tradition (space separated and more lightweight), while Scala is based on the object-oriented style (although Scala makes it more lightweight).

  • Integrating OO and FP
    Both F# and Scala very smoothly integrate OO with FP (because there is no contradiction between these two!!) You can declare classes to hold immutable data (functional aspect) and provide members related to working with the data, you can also use interfaces for abstraction (object-oriented aspects). I'm not as familiar with OCaml, but I would think that it puts more emphasis on the OO side (compared to F#)

  • Programming style in F#
    I think that the usual programming style used in F# (if you don't need to write .NET library and don't have other limitations) is probably more functional and you'd use OO features only when you need to. This means that you group functionality using functions, modules and algebraic data types.

  • Programming style in Scala
    In Scala, the default programming style is more object-oriented (in the organization), however you still (probably) write functional programs, because the "standard" approach is to write code that avoids mutation.

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Functions are not first-class in Scala and it doesn't do TCO properly. –  Jon Harrop May 29 '10 at 14:42
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@Jon: As far as I know, functions are objects in Scala and objects are (not surprisingly) first-class. –  Tomas Petricek May 29 '10 at 15:12
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As far as I know, members should also be functions but they are not first-class in Scala (as they are in F#, for example). –  Jon Harrop May 29 '10 at 20:50
    
Regarding OCaml, I would actually say that it puts less emphasis on OOP because OCaml's object system was literally added as an afterthough. However, the main difference is that OCaml's object system works a lot better with type inference than either F# or Scala. –  Jon Harrop Nov 25 '10 at 21:59

What are the key differences between the approaches taken by Scala and F# to unify OO and FP paradigms?

The key difference is that Scala tries to blend the paradigms by making sacrifices (usually on the FP side) whereas F# (and OCaml) generally draw a line between the paradigms and let the programmer choose between them for each task.

Scala had to make sacrifices in order to unify the paradigms. For example:

  • First-class functions are an essential feature of any functional language (ML, Scheme and Haskell). All functions are first-class in F#. Member functions are second-class in Scala.

  • Overloading and subtypes impede type inference. F# provides a large sublanguage that sacrifices these OO features in order to provide powerful type inference when these features are not used (requiring type annotations when they are used). Scala pushes these features everywhere in order to maintain consistent OO at the cost of poor type inference everywhere.

Another consequence of this is that F# is based upon tried and tested ideas whereas Scala is pioneering in this respect. This is ideal for the motivations behind the projects: F# is a commercial product and Scala is programming language research.

As an aside, Scala also sacrificed other core features of FP such as tail-call optimization for pragmatic reasons due to limitations of their VM of choice (the JVM). This also makes Scala much more OOP than FP. Note that there is a project to bring Scala to .NET that will use the CLR to do genuine TCO.

What are the relative merits and demerits of each approach? If, in spite of the support for subtyping, F# can infer the types of function arguments then why can't Scala?

Type inference is at odds with OO-centric features like overloading and subtypes. F# chose type inference over consistency with respect to overloading. Scala chose ubiquitous overloading and subtypes over type inference. This makes F# more like OCaml and Scala more like C#. In particular, Scala is no more a functional programming language than C# is.

Which is better is entirely subjective, of course, but I personally much prefer the tremendous brevity and clarity that comes from powerful type inference in the general case. OCaml is a wonderful language but one pain point was the lack of operator overloading that required programmers to use + for ints, +. for floats, +/ for rationals and so on. Once again, F# chooses pragmatism over obsession by sacrificing type inference for overloading specifically in the context of numerics, not only on arithmetic operators but also on arithmetic functions such as sin. Every corner of the F# language is the result of carefully chosen pragmatic trade-offs like this. Despite the resulting inconsistencies, I believe this makes F# far more useful.

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I wish I could up vote and down vote this. I like how you summarized the trade-offs between OOP vs Functional, but don't agree that Scala is not a commercial product (I'd say in addition to being "programming language research"). Why run on the JVM, which you acknowledge necessitated more sacrifices, if not for commercial appeal? I also don't agree that Scala is no more a functional programming language than C#. Scala has better support for immutability, pattern matching, and stronger type inference than C#. –  Tim Goodman Apr 2 at 6:52
    
@TimGoodman: Scala was not yet commercial when I wrote that (2010) but it is today. The JVM is a huge benefit for people implementing non-commercial languages because it provides high-quality garbage collectors that support multithreading. Standalone languages like OCaml and Python struggle with multithreading. Pattern matching and type inference are orthogonal to functional programming (e.g. Lisp has neither). Immutability is trivial in C#, just don't mutate! Lack of TCO so, for example, standard functional idioms like CPS are completely broken is a major flaw IMO. –  Jon Harrop Apr 5 at 18:17
    
Yeah, you make a good point about the garbage collection and multithreading benefits of the JVM. I just re-read some interviews with Martin Odersky on the origins of Scala (like this one: artima.com/scalazine/articles/origins_of_scala.html ) and it sounds like that was a consideration in choosing the JVM. Also, it seems it's fair to characterize Scala as starting as a research project and then becoming commercial. So I withdraw that criticism. –  Tim Goodman Apr 5 at 18:47
    
Regarding whether C# is as functional as Scala, everyone seems to have their own definition of "functional programming", but it's worth noting that Mads Torgensen, who supervises C# language design, has characterized pattern matching, type inference, and immutability as typical functional programming features that C# either lacks or doesn't support to the same degree. See here: blogs.msdn.com/b/madst/archive/2007/01/23/… That blog post is a bit old, but I don't think much has changed with respect to these features. –  Tim Goodman Apr 5 at 18:53
    
Regarding pattern matching and type inference, I would say that they are common features of most statically-typed functional programming languages. So while not strictly required for a language to be functional, the fact that one statically typed language has them and another (largely) doesn't is relevant to the question "which is more of a functional programming language?" (For some definitions of "functional programming", anyway.) –  Tim Goodman Apr 5 at 19:07

From this article on Programming Languages:

Scala is a rugged, expressive, strictly superior replacement for Java. Scala is the programming language I would use for a task like writing a web server or an IRC client. In contrast to OCaml [or F#], which was a functional language with an object-oriented system grafted to it, Scala feels more like an true hybrid of object-oriented and functional programming. (That is, object-oriented programmers should be able to start using Scala immediately, picking up the functional parts only as they choose to.)

I first learned about Scala at POPL 2006 when Martin Odersky gave an invited talk on it. At the time I saw functional programming as strictly superior to object-oriented programming, so I didn't see a need for a language that fused functional and object-oriented programming. (That was probably because all I wrote back then were compilers, interpreters and static analyzers.)

The need for Scala didn't become apparent to me until I wrote a concurrent HTTPD from scratch to support long-polled AJAX for yaplet. In order to get good multicore support, I wrote the first version in Java. As a language, I don't think Java is all that bad, and I can enjoy well-done object-oriented programming. As a functional programmer, however, the lack of (or needlessly verbose) support of functional programming features (like higher-order functions) grates on me when I program in Java. So, I gave Scala a chance.

Scala runs on the JVM, so I could gradually port my existing project into Scala. It also means that Scala, in addition to its own rather large library, has access to the entire Java library as well. This means you can get real work done in Scala.

As I started using Scala, I became impressed by how cleverly the functional and object-oriented worlds blended together. In particular, Scala has a powerful case class/pattern-matching system that addressed pet peeves lingering from my experiences with Standard ML, OCaml and Haskell: the programmer can decide which fields of an object should be matchable (as opposed to being forced to match on all of them), and variable-arity arguments are permitted. In fact, Scala even allows programmer-defined patterns. I write a lot of functions that operate on abstract syntax nodes, and it's nice to be able to match on only the syntactic children, but still have fields for things such as annotations or lines in the original program. The case class system lets one split the definition of an algebraic data type across multiple files or across multiple parts of the same file, which is remarkably handy.

Scala also supports well-defined multiple inheritance through class-like devices called traits.

Scala also allows a considerable degree of overloading; even function application and array update can be overloaded. In my experience, this tends to make my Scala programs more intuitive and concise.

One feature that turns out to save a lot of code, in the same way that type classes save code in Haskell, is implicits. You can imagine implicits as an API for the error-recovery phase of the type-checker. In short, when the type checker needs an X but got a Y, it will check to see if there's an implicit function in scope that converts Y into X; if it finds one, it "casts" using the implicit. This makes it possible to look like you're extending just about any type in Scala, and it allows for tighter embeddings of DSLs.

From the above excerpt it is clear that Scala's approach to unify OO and FP paradigms is far more superior to that of OCaml or F#.

HTH.

Regards,
Eric.

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"it is clear that Scala's approach to unify OO and FP paradigms is superior to that of OCaml or F#." I'm afraid that in order to support that statement, you'll have to provide evidence that OO with FP grafted on is superior to FP with OO grafted on. –  Joel Mueller May 26 '10 at 18:11
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I'm not even sure it is fair to regard F# as FP with OO grafted on when its target was always CIL which is entirely OO. –  Jon Harrop Nov 25 '10 at 22:00

The syntax of F# was taken from OCaml but the object model of F# was taken from .NET. This gives F# a light and terse syntax that is characteristic of functional programming languages and at the same time allows F# to interoperate with the existing .NET languages and .NET libraries very smoothly through its object model.

Scala does a similar job on the JVM that F# does on the CLR. However Scala has chosen to adopt a more Java-like syntax. This may assist in its adoption by object-oriented programmers but to a functional programmer it can feel a bit heavy. Its object model is similar to Java's allowing for seamless interoperation with Java but has some interesting differences such as support for traits.

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Scala does a similar job on the JVM that F# does on the CLR - well, only in a box-ticking sense. Scala really is a better thought-out marriage of functional- and OO-style that Ocaml/F#. –  Charles Stewart May 26 '10 at 7:08
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@Charles: If that were true Scala would do real TCO but it doesn't so any real functional code written in Scala just stack overflows. Hardly "better thought out"... –  Jon Harrop May 29 '10 at 14:39
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@Jon: This is a good point, given that some say that you haven't really got functional programming without full TCO. In defence of Scala, they have the problem because they are on the JVM and want full, robust interaction with native Java code, and they do optimise tail calls when they can. Note that Scala on .NET does support full tail calls. –  Charles Stewart May 30 '10 at 8:11
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@Jon: "What's wrong with OO in F#?" Nothing, really: you can pretty much do C# in it, and since Don Syme is working on mixins, I won't make anything of that. Rather, the problem is that FP works with values, and OO works with classes: you have a distinction, say, between string list and list<string> in F# (and no generics at all in OCaml, so you can't even cast string list to an object). Meanwhile in Scala, all types are classes; the type system derives from the Abadi-Cardelli Theory of Objects, as extended by Odersky, which is the foundation which Scala's FP is built on. –  Charles Stewart Jun 1 '10 at 7:54
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@Charles: I do not understand: string list vs list<string> is purely syntactic, OCaml obviously has generics (its family of languages invented generics!). All types are not classes in OCaml but I think they are in F#, aren't they? For example, you can do (1).GetHashCode() and [1;2;3].GetHashCode() in F#. –  Jon Harrop Jun 1 '10 at 9:31

If functional programming means programming with functions, then Scala bends that a bit. In Scala, if I understand correctly, you're programming with methods instead of functions.

When the class (and the object of that class) behind the method don't matter, Scala will let you pretend it's just a function. Perhaps a Scala language lawyer can elaborate on this distinction (if it even is a distinction), and any consequences.

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+1: Two uncommented downvotes for being entirely correct. Welcome to Stack Overflow! –  Jon Harrop Jun 6 '10 at 15:34

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