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.

learn more… | top users | synonyms

0
votes
2answers
35 views

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 ...
2
votes
3answers
97 views

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 ...
5
votes
2answers
96 views

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 ...
2
votes
1answer
38 views

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. ...
1
vote
1answer
57 views

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) ...
1
vote
2answers
91 views

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 ...
8
votes
1answer
69 views

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 ...
16
votes
2answers
356 views

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 ...
2
votes
1answer
687 views

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 ...
3
votes
1answer
36 views

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 ...
5
votes
1answer
84 views

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 ...
4
votes
2answers
91 views

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 ...
0
votes
3answers
77 views

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[_ <: ...
5
votes
1answer
95 views

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 ...
8
votes
2answers
2k views

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 ...
10
votes
2answers
207 views

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 ...
1
vote
2answers
86 views

Ambiguous type variable when wrapping typeclass function in existential

I'm using a typed tagless final encoding in an interpreter. Unfortunately, I'm having issues with the typechecking phase. The minimal testcase is as follows: {-# LANGUAGE RankNTypes, ...
2
votes
1answer
96 views

Higher kinded existentials without covariant annotation

When trying to use higher kinded existentials in Scala I run into the following problem: trait A[H[_]] trait Test { val l: A[List] // [error] type mismatch; // [error] found : A[List] // ...
0
votes
1answer
193 views

Existential types in Scala

Please find below a short example which puzzles me. I must concede that I have some difficulties to manipulate existential types in Scala. How should I solve the type mismatch line 56 ? proposer ...
4
votes
3answers
127 views

Encoding versus using an existential type when encoded as a universal

I'm trying to better understand the nuances of encoding versus using an existential type after we transform it into a universal. In short, it appears to me that using an existential type is much ...
20
votes
2answers
575 views

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? ...
4
votes
2answers
189 views

How to define a strict existential type?

I want to use Haskell's existential types (http://www.haskell.org/haskellwiki/Existential_type) in a strict context. I took the example from the haskell-wiki and tried to create a strict heterogeneous ...
5
votes
2answers
110 views

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 ...
1
vote
2answers
189 views

Where is the scaladoc for scala.language.existentials?

When I tried to write a class that accepts any Class[_] as a parameter: case class A(klass: Class[_]) I got this error: test.scala:1: warning: inferred existential type Option[Class[_$1]] ...
3
votes
1answer
76 views

How to construct wildcard type in Scala macro?

I am unable to find out how to programatically construct existential types in Scala macros. For example, let's assume that I have a ClassSymbol that represents a class C[T] that has one type ...
2
votes
1answer
84 views

Breakdown with existential type and higher order function

Using some structure: object Foo { trait Bar[B] } trait Foo[A, B, F <: Foo[A, B, F]] { def baz(fun: A => Foo.Bar[B] => Unit): Unit } ...why are existential types causing trouble: def ...
2
votes
1answer
103 views

Dependency between Map key and value type parameters in Scala [duplicate]

Sometimes it may be useful to encode dependency between types of keys and values in a map. Consider the following type: type MyPairs = Seq[(TypeTag[T], T) forSome {type T}] Here each pair in the ...
2
votes
1answer
531 views

How to describe and fix this Scala type mismatch error?

Below is a specific instance of a kind of situation that I sometimes encounter with parameterized types. Basically, there are type parameters that I know are compatible, but I don't know how to prove ...
2
votes
1answer
131 views

Existentially quantified types Could not deduce in the typeclass context

{-# LANGUAGE ExistentialQuantification, DeriveDataTypeable #-} import Data.Typeable; data EnumBox = forall s. (Enum s, Show s) => EB s deriving Typeable instance Show EnumBox where ...
4
votes
2answers
285 views

Scala cake-pattern compile error with Precog config pattern

Following from this question, I have now the following: case class Pet(val name: String) trait ConfigComponent { type Config def config: Config } trait VetModule extends ConfigComponent { ...
0
votes
2answers
113 views

Scala cake pattern with Existential Types: compile error

Through this question, I found this article on the 'config' pattern from Precog. I tried this with two modules: case class Pet(val name: String) trait ConfigComponent { type Config def config: ...
4
votes
1answer
118 views

Lowering functions to an embedded language

How can I lower a Haskell function to an embedded language in as typesafe a manner as possible. In particular, let's assume I have a value type like data Type t where Num :: Type Int Bool :: ...
9
votes
2answers
245 views

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 ...
5
votes
1answer
216 views

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 ...
3
votes
3answers
176 views

Deserializing an existential data type

I need to write a Serialize instance for the following data type: data AnyNode = forall n . (Typeable n, Serialize n) => AnyNode n Serializing this is no problem, but I can't implement ...
9
votes
1answer
162 views

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 ...
1
vote
1answer
98 views

Is it possible to only expose the typeclass interface of a return value?

In the following code all that I ever do with the return value of foo is use its Show interface foo :: String foo = "asdf" main = do print foo Is there a way to modify the type signature offoo ...
4
votes
1answer
199 views

Correct encoding of this existential type in Scala?

I'm interested in encoding this Stream type from the Stream Fusion paper from Coutts et al. I'm exploring stream fusion in Scala, attempting to use macros in place of GHC's rewrite rules. data Stream ...
2
votes
2answers
337 views

why is specified equivalence between wildcard and existential types not observed in REPL

According to THE Java Programming Language 4th ed. section 15.7.1 "Type Tokens": getClass receives special treatment by the compiler: If getClass is invoked on a reference with static type T, then ...
1
vote
1answer
261 views

Scala: Why lower bounds in existential type declaration not enforced?

Assume the following declarations made into the Scala repl: class Animal class Bird extends Animal class Chicken extends Bird type SubType = t forSome { type t <: Bird } type SuperType = t forSome ...
1
vote
1answer
109 views

Reuse Scala type as bounds in method definition

Is it possible to write something like this and reuse the HelperTest.AnyHelper type? class HelperUtil { /* this is what I would like to write... reuse the AnyHelper type in the definition */ ...
8
votes
1answer
131 views

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 ...
9
votes
1answer
265 views

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 ...
16
votes
2answers
371 views

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 ...
1
vote
2answers
238 views

Encoding ExistentialQuantification with RankNTypes

I've read in a few places claims that equivalent functionality to ExistentialQuantification can be had using RankNTypes. Could someone provide an example of why this is or is not possible?
7
votes
1answer
253 views

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 , ...
4
votes
1answer
157 views

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] ...
2
votes
3answers
338 views

Scala type inference on an existential type

Consider the following code snippet, which is a reduced version of my original problem: case class RandomVariable[A](values: List[A]) case class Assignment[A](variable: RandomVariable[A], value: A) ...
4
votes
1answer
251 views

Is there special meaning to an underscore (_) in Type Bounds?

I'm trying to understand Scala's existential types. Is there any difference between: def foo[X <: Bar] = 3 and def foo[_ <: Bar] = 3 or are they something more than just unnamed type ...
4
votes
2answers
108 views

strange existential type

http://www.iai.uni-bonn.de/~jv/mpc08.pdf - in this article I cannot understand the following declaration: instance TreeLike CTree where ... abs :: CTree a -> Tree a improve :: (forall m. TreeLike ...