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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Mapping between existential types

I have several classes like these: class Value[T] class Container[T](v: Value[T], x: T) Now I want to transform a sequence of (Value[T], T)s into a sequence of Container[T]s where T for each ...
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How to correctly qualify types for working with the random monads

I want to create a data structure that comprises of defined functions based on: fold, Boolean operations, numeric operations (arithmetic and comparisons), and basic string operations. I'll be trying ...
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Types and generics: difference between `[X <: Int]` and `{type X <: Int }`

From what I can tell, these 2 functions are equivalent: def x(xx: X forSome { type X <: Int }): Unit = () def y[Y <: Int](yy: Y): Unit = () According to my observations, nowadays people ...
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Scala existentials placeholder translation for M[_,_] where M[X,Y <: N[X]]

Given the following types trait N[X] trait M[X, Y <: N[X]] How does scala translate this: M[_,_] I've tried the following but without success: scala> import ...
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ambiguous implicit values doing conversions with json types

I am trying to make a generic mapper from a JValue (from json4s) to a Scala case class (with contains spire numeric existential type) and vice versa having the scala case class similar to : case ...
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existential types declarations in Scala [duplicate]

What is the difference between the following existential types declarations: trait A[T <: A[T]] 1. def existentialErr(arg: A[T forSome{type T <: A[T]}]): Unit =() 2. def existentialOk(arg: ...
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scala: overriding a value of generic, existential type with a concretised type

I have a generic trait MappingPath, invariant regarding it's type parameters: trait MappingPath[X<:AnyMapping, Y<:AnyMapping] and an interface of a factory for it: trait Pathfinder[X, Y] { ...
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Haskell: Type (without boilerplate) for a heterogeneous list of String and/or [String]?

I would like to have a heterogeneous list of String and [String], as such: strs = ["h", ["x", "y"], "i", ["m", "n", "p"]] I know I can do this with a custom data type: data EitherOr t = StringS t ...
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How can I apply an arbitrary function under an existential wrapper?

I'm trying to write a function (called hide here), which can apply a sufficiently polymorphic function inside an existential wrapper (or lift functions to work on wrappers with hidden types; hence ...
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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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Can I coerce an existentially quantified argument in a type constructor?

I have a data type whose (single) constructor contains an existentially quantified type variable: data LogEvent = forall a . ToJSON a => LogEvent { logTimestamp :: Date ...
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Existentially quantified type parameter, recursive function and type error

Consider the following piece of OCaml code: type mytype = My : 'a list * 'a -> mytype let rec foo : int -> mytype = fun n -> if n < 0 then My([], 2) else let My(xs, y) = foo ...
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Cast a variable to runtime type from existential typed TypeCast in Scala

This thread addressed how to use TypeTag to get runtime type of type parameters when used with Existential type. Another thread addressed how to cast a variable to its runtime type retrieved from ...
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Trait runtime type of type parameter through TypeTag when used with Existential type in Scala

I have trait with type parameter. To get the runtime type I use TypeTag. However, when this trait (and its classes) are used with existential type in a Collection, e.g. List or Map, TypeTag is "lost". ...
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Binding Existential types in Scala

This is my basic CMap which map classes (Class[T] for any T) to any type of value. scala> type CMap = Map[Class[T] forSome{type T}, Any] defined type alias CMap scala> val cMap: CMap = ...
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Difference between modules and existentials

It's folk knowledge that OCaml modules are "just" existential types. That there's some kind of parity between module X = struct type t val x : t end and data 'a spec = { x : 'a } data x = X : 'a ...
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Existential types for F-Bounded Polymorphic types and non-generic subtypes?

I have two subtypes that I need to be F-bounded polymorphic by a type A, and a subtype of one of those subtypes, i.e. trait A[T <: A[T]] { def x: T } trait Ter extends A[Ter] trait For extends ...
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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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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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universal and existential quantifier in prolog

How can I implement following rules in prolog. I write the “ No spiders are mammals” sentence as Existential and universal: ¬∃x(mammals(X) ∧ spider(X) ) //It is not the case that mammals are spider ...
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Translate/encode Haskell's `data Obj = forall a. (Show a) => Obj a` in Scala

I've not been able to come up with how to encode Obj in Scala: {-# LANGUAGE ExistentialQuantification #-} data Obj = forall a. (Show a) => Obj a instance Show Obj where show (Obj a) = "Obj " ++ ...
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How to use Linear.V to write static type checked matrix operations (Haskell)?

I'm interested in using Linear.V from the Linear library to write matrix operations on sizes that are known at compile time. However, I'm not sure how to use this library. Where can I find more ...
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Is there a way to expand the scope of an existential type quantifier in Scala to convince the type checker that two variables have the same type?

Consider the following code snippet: case class Foo[A](a:A) case class Bar[A](a:A) def f[B](foo:Foo[Seq[B]], bar:Bar[Seq[B]]) = foo.a ++ bar.a val s : Seq[T] forSome {type T} = Seq(1, 2, 3) ...
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Haskell - constructing a type that uses existential quantification

In the code below I have defined a data type F using existential quantification. I would like values of type F to hold functions that accept a single argument and produce, say, an Int as the result. ...
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Difference between def m(p: T forSome {type T} and def m1(p:Any), is there any ? Explanation needed based on Scala Language Specification

object ExistentialTypesAsFunctionParameters extends App{ def m(p: T forSome {type T})=p.toString def m1(p:Any)=p.toString println(m("Hello")) println(m1("Hello")) } This ...
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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 ...
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Understanding type constraints

My particular problem may have something to do with existential types but I'm not sure so I won't put it in the title. Anyways, here's what I'm trying to do. Have an Entity type that wraps over a ...
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General 'typeless' STack in Haskell

I need to implement a general stack for something I'm working on. This stack should be able to hold elements of different types. For example, (1, 'c', True, "Strings"). The functions to be supported ...
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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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Existential typing ambiguity

Apologies for the somewhat contrived example. I've tried to simplify this to the extent that I can without losing the justification: Suppose I have a multi-parameter typeclass Relation: class ...
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How to use Data.Type.Natural's Typeable Instance

Data.Type.Natural just added a Typeable instance, one for the promoted type 'Z and one for 'S. Although in practice this means that every Nat is Typeable, the compiler doesn't seem to know that. As a ...
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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 ...
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Existential type at declaration site

I was playing around with Scala when I found that this compiles: class Foo[_] What does an existential type in a class declaration do?
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Haskell: Existential Types and IO

       Cross-posted at Code Review SE In my attempts to grasp Existential Types in Haskell I decided to implement an integer-based fixed-length vector data type. I'm using ghc 7.8.3. ...
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Issue with using wildcard parameter twice in a case class

As peers the example below, I am trying to make a case class that can hold items of type SomeResult[T] without having to know what T is. This works fine in the case of Rawr, which can hold a Set of ...
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forall as an intersection over those sets

I have been reading the existential section on Wikibooks and this is what is stated there: Firstly, forall really does mean 'for all'. One way of thinking about types is as sets of values with ...
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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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How can I use Scala's typesystem to remove an unnecessary type parameter and create a generic thrift api?

I'm trying to create a generic adapter for AsyncClient in thrift for Scala that will let an rpc implement Function1[A, Future[B]] rather than use thrift's less composable built-in callback approach. ...
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confusion with existential types in scala

I was struggling to understand existential types in scala but can't figure it out. Here is my test code: scala> val a: Array[T] forSome {type T} = Array(1,2.2,"3") a: Array[_] = Array(1, 2.2, 3) ...
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Scala Cake Pattern and Existential Types

I'm writing a simple Scala application using the Cake Pattern, but I'm running into trouble with a particular use case. Usually, I define a component with some existential type (MyType) that is ...
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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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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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Writing to HBase in a Spark job: a conundrum with existential types

I am trying to write a Spark job that should put its output into HBase. AS far as I can tell, the right way to do this is to use the method saveAsHadoopDataset on org.apache.spark.rdd.PairRDDFunctions ...
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How to understand the type name requirement for existential type?

From this question: Sample of `forSome { val `? I learnt that, if I use this format of existential type: type SomeList = List[v.T] forSome { val v : { type T }; } There must be a type named T in ...
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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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Can an existentially quantified type variable be forced to have only a single type?

Consider the following code trait Foo[T] { def one: Foo[_ >: T] def two: T def three(x: T) } def test[T](f: Foo[T]) = { val b = f.one b.three(b.two) } The method test fails to type ...
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How to understand the code `val x: Cat[_ <: String] = new Cat[String]`

I just write some scala code: class Cat[T] val x: Cat[_ <: String] = new Cat[String] It can be compiled, but I don't understand it well. You can see I declare the type of x as Cat[_ <: ...
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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 ...
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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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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 ...