Existential types are types that provide a collection of operations that act on an unspecified, or abstract, type. They thus capture notions of interface and abstraction in a type theoretic setting.

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What is an existential type?

I read through the Wikipedia article Existential types. I gathered that they're called existential types because of the existential operator (∃). I'm not sure what the point of it is, though. What's ...
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What's the theoretical basis for existential types?

The Haskell Wiki does a good job of explaining how to use existential types, but I don't quite grok the theory behind them. Consider this example of an existential type: data S = forall a. Show a ...
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Why can't I use record selectors with an existentially quantified type?

When using Existential types, we have to use a pattern-matching syntax for extracting the foralled value. We can't use the ordinary record selectors as functions. GHC reports an error and suggest ...
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What is and when to use Scala's forSome keyword?

What is the difference between List[T] forSome {type T} and List[T forSome {type T}]? How do I read them in "English"? How should I grok the forSome keyword? What are some practical uses of forSome? ...
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Difference between Scala's existential types and Java's wildcard by example?

A bit more specific than Stack Overflow question What is an existential type?, what is the difference between Scala's existential types and Java's wildcard, prefereably with some illustrative example? ...
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What are type quantifiers?

Many statically typed languages have parametric polymorphism. For example in C# one can define: T Foo<T>(T x){ return x; } In a call site you can do: int y = Foo<int>(3); These types ...
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Why aren't there existentially quantified type variables in GHC Haskell

There are universally quantified type variables, and there are existentially quantified data types. However, despite that people give pseudocode of the form exists a. Int -> a to help explain ...
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Why GADT/existential data constructors cannot be used in lazy patterns?

Today, I got a compiler error when trying to use a lazy pattern when matching on an existential GADT constructor: An existential or GADT data constructor cannot be used inside a lazy (~) pattern ...
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Haskell existential quantification in detail

I have a general idea of what existential quantification on types is and where it can be used. However from my experiences so far, there are a lot of caveats that need to be understood in order to use ...
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Haskell counted list type

So, just for fun, I've been playing with a CountedList type in Haskell, using Peano numbers and smart constructors. Type-safe head and tail just seem really cool to me. And I think I've reached the ...
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A “truly” generic function in Haskell

Suppose I have a compound data type - data M o = M (String,o) Now, I can define a function that works for ALL M irrespective of o. For example - f :: M o -> M o f (M (s,o)) = M (s++"!", o) ...
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Folding over a polymorphic list in Haskell

I have a collection of records spread across a number of types in a large Haskell application that reference each other. All of the types involved implement a common typeclass. The typeclass contains ...
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Can all usages of `forSome` be replaced by an equivalent usage of `_`?

For instance, List[T] forSome { type T } is equivalent to List[_], but is this true for every possible usage of forSome or are there cases where forSome cannot be replaced by an equivalent of the ...
12
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polymorphic function on existential type

So say I have a class: class C a where reduce :: a -> Int Now I want to pack it up in a data type: data Signal = forall a. (C a) => Signal [(Double, a)] Thanks to the existential ...
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Existential types and type members

What works (Part A) Suppose I have a trait with a type parameter: trait A[T] I can use an existential type to write a method that will take a collection of As that all have the same T: def ...
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How does one declare an abstract data container type in Haskell?

I read William Cook's "On Data Abstraction, Revisited", and re-read Ralf Laemmel's "The expression lemma" to try to understand how to apply the former paper's ideas in Haskell. So, I'm trying to ...
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Is there a way to define an existentially quantified newtype in GHC Haskell?

Is it possible in (GHC) Haskell to define an existentially-quantified newtype? I understand that if type classes are involved it can't be done in a dictionary-passing implementation, but for my ...
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How to express existential types using higher rank (rank-N) type polymorphism?

We're used to having universally quantified types for polymorphic functions. Existentially quantified types are used much less often. How can we express existentially quantified types using universal ...
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Why does Array[T forSome { type T; }] mean Array[Any]

I'm reading the article "Existential types in Scala", and found something I can't understand: Array[T] forSome { type T; } Array[T forSome { type T; }] They look almost identical, but they're in ...
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State monad in OCaml

I was trying to implement the state monad in OCaml (as an exercise). My implementation looks like this: module type MONAD_BUILDER = sig type 'a t val return : 'a -> 'a t val bind : 'a t ...
9
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Existential type in higher order function

I've got a function whose job is to compute some optimal value of type a wrt some value function of type a -> v type OptiF a v = (a -> v) -> a Then I have a container that wants to store ...
9
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1answer
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Constraint subset higher-order constraint

Using the GHC.Exts.Constraint kind, I have a generalized existentially quantified data structure like this: data Some :: (* -> Constraint) -> * where Specimen :: c a => a -> Some c ...
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Typeably casting GADTs

Let's say I'm writing a DSL and want to have support for both phantom type support and badly typed expressions. My value types might be {-# LANGUAGE GADTs, DataKinds #-} data Ty = Num | Bool ...
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Is it possible to have forgetful type synonyms in Haskell?

If I have a type with a phantom parameter that I only sometimes care about, like this one: data Foo p a b = Bar a b Is there any hack way to write a type synonym Baz such that Baz a b is Foo p a b ...
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Haskell Existential Types

I'm trying to wrap my brain around Haskell's existential types, and my first example is a heterogeneous list of things that can be shown: {-# LANGUAGE ExistentialQuantification #-} data Showable = ...
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Referring to an existential type variable

I would like to add type signatures to some local functions in my code. However, their types involve anonymous, existentially bound type variables. Since they're anonymous, I don't know how to write ...
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Retreiving information from DataKinds constrained existential types

If I have a type constrained by a finite DataKind {-# LANGUAGE DataKinds #-} data K = A | B data Ty (a :: K) = Ty { ... } and an existential type which forgets the exact choice of K in the ...
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Are C++ concepts a form of existential type?

I was looking at the definition of existential types on Wikipedia (Existential_types) and it feels similar in some way to concepts in C++ (particularly to concepts lite). Are C++ concepts a form of ...
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Existential types and monad transformers

Context: I'm trying to produce an error monad that also keeps track of a list of warnings, something like this: data Dangerous a = forall e w. (Error e, Show e, Show w) => Dangerous (ErrorT e ...
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How to use functional dependencies and existential quantification to remove an unnecessary parameter to my type

In the HLearn library that I'm working on, I have some container data type that looks like this: data (Model params model) => Container' params model = Container' { baseparams :: params , ...
7
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1answer
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Type errors with Existential types in Haskell

I am struggling with existential types in my program. I think I'm trying to do something very reasonable however I cannot get past the typechecker :( I have a datatype that sort of mimics a Monad ...
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Haskell: Heterogeneous list for data with phantom variable

I'm learning about existential quantification, phantom types, and GADTs at the moment. How do I go about creating a heterogeneous list of a data type with a phantom variable? For example: {-# ...
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GADT vs Existentially quantified types (*forall*)

One can use GADT to express Existentially quantified types. I see that GADT is more generic - data-type-extensions, paragraph section 7.4.7 When it's better to use Existentially quantified types ...
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Simulating existential quantification in function return types

Sometimes I come upon a need to return values of an existentially quantified type. This happens most often when I'm working with phantom types (for example representing the depth of a balanced tree). ...
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Haskell: Record Update for Existential Types

I was trying to use record update for an existential record when I ran into an error. A quick google led me to feature request #2595, which shows it as implemented for GHC back in version 6.8.3. I'm ...
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Overriding functions with path-dependent type parameters

Edit: Thanks to Derek pointing out the critical part of the error message, I was able to extract the critical part a bit more and it seems to be about Existential Types. If I do understand §3.2.10 ...
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Checking the equality of types involving existentials in Scala

I'm writing a function of the form def test[A,B](a: A, b: B)(implicit eq: A =:= B): Unit = ... where I require an evidence that types A and B are the same. I would expect calls of the form ...
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Testing equality between two heterogeneous values

I'm using the -XExistentialQuantification GHC extension to create a heterogeneous container for values of a specific type class (Shape): -- Container type data Object = forall a. Shape a => Object ...
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Existential type wrappers necessity

Turns out that it is surprisingly difficult to use existential/rank-n types correctly despite the very simple idea behind them. Why are wrapping existential types into data types is necessary? I ...
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Type signature of parser with existential quantification

In the beginning I had this simple type for a parser: data Parser a = Parser ([Token] -> Either String (a, [Token])) I use the Either for error messages on the left side and the parsed ...
5
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Resolving a Function Call in an Existential Type

Upon reading this page on existentials in Haskell, I was compelled to test the limits of this behavior, so I wrote the following code snippet: {-# LANGUAGE ExistentialQuantification #-} data ...
5
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Can GADTs (or existentials) without constraints be compiled as tight as untyped ordinary ADTs?

Suppose I have some ADT, like data Foo = Foo !Int | Bar (Int->Int) Foo Now say I want to impose some kind of extra type safety, getting rid of the "magic number type": {-# LANGUAGE ...
5
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Heterogeneous map

I need a map which can contain arbitrary values as long as their types are of the same typeclass. My first naive approach was something like this: type HMap = forall a . MyClass a => M.Map Int a ...
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What does the “not a simple type” warning mean in Scala?

My Scala 2.9.1 project now emits 176 warnings, all almost exactly like this one: [warn] Not a simple type: [warn] Type: _29.type#source.type forSome { type _29.type <: ...
5
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1answer
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How to work around inability to use lenses with existential types?

I am using Edward Kmett's lens library for the first time, and finding it rather nice, but I ran into a snag... The question at [1] explains that existential quantifiers disrupt makeLenses. I really ...
5
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How to express this type in Scala? Existential with type class (ie, implicit) restriction?

I'm using the Play framework's JSON library, which uses a type class to implement the Json.toJson function. (I may decide to use another technique with less static typing, like reflection; but for ...
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What is the significant of the placement of the “forSome” clause in Scala generics syntax?

Based on the answers to this question, it appears that placing "forSome" after a component of the type definition is different from placing it at the end of the whole thing. For instance, it seems ...
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Kinds not conforming with type lambda

Having trouble with type "kinds": trait Sys[ S <: Sys[S]] trait Expr[S <: Sys[S], A] trait Attr[S <: Sys[S], A[_]] def test[ S <: Sys[S]]: Attr[S, ({type l[x<:Sys[x]]=Expr[x,Int]})#l] ...
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Scala type inference for existential types and type members

The following piece of code does not compile : trait A[F] { def find(x: Int): F def fill(f: F): Unit } object TestA { def test[T <: A[F] forSome { type F }](t: T) = t.fill(t.find(0)) } ...
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Existential type or type parameter bound failure

I have an F-bounded type Sys: trait Sys[S <: Sys[S]] And some trait which take it as type parameter: trait Foo[S <: Sys[S]] Suppose I have a method to be invoked with a Foo: def invoke[S ...