Algebraic data types are data structures built from sums, products and recursive types, admitting an algebra. Descriptions of types given as ADTs may be manipulated symbolically to derive other related data structures. The logic for building types algebraically is related to combinatorial species in ...

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Haskell “not a visible field of constructor” error

I'm getting an error I don't quite understand: AnotherModule.hs:6:38: `something' is not a (visible) field of constructor `M.SomeType' AnotherModule.hs:7:38: `somethingElse' is not a ...
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Recursive bottom-up traversal of algebraic data types

When dealing with sizeable algebraic data types in Haskell, there is a particular recursive traversal not captured by folding over the data type. For instance, suppose I have a simple data type ...
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Overhead of using classes for matrix of algebraic structures in C++

I am using C++ to code some complicated FFT algorithm, so I need to implement such algebraic structures as quaternions and Hamilton-Eisenstein codes. Algorithm works with 2D array of that structures. ...
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Defining new data types in Scheme

I first need to mention that I'm quite new to Scheme and as such, the following question might not make too much sense. At school, we've defined algebraic data types, that typically had a nullary ...
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Haskell data types usage good practicies

Reading "Real world Haskell" i found some intresting question about data types: This pattern matching and positional data access make it look like you have very tight coupling between data and ...
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Is there a Haskell equivalent of OOP's abstract classes, using algebraic data types or polymorphism?

In Haskell, is it possible to write a function with a signature that can accept two different (although similar) data types, and operate differently depending on what type is passed in? An example ...
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Algebraic data types outside of functional languages?

Mostly out of curiosity: Which languages that are not solely functional (I'm also interested in multi-paradigm languages - I know that Ocaml and F# are ML dialects with OO added, so they inherit the ...
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Is it possible to define new ADTs in GHCi

While commenting on new features in ghci I wished that ghci had the ability to declare type declaration and declaring new ADT types, someone informed that it was indeed possible, and after searching I ...
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F# / SIlverlight Binding to algebraic datatypes

Given a data structure of: type Candidate = SalesRep of SalesRep | Analyst of Analyst type ScorableCandidate = { candidate: Candidate ; mutable comments: string ; mutable score: int ; } ...
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Is there any algebraic structures used in functional programming other then monoid?

I recently getting to know about functional programming (in Haskell and Scala). It's capabilities and elegance is quite charming. But when I met Monads, which makes use of an algebraic structure ...
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Memory footprint of Haskell data types

How to find the actual amount of memory required to store a value of some data type in Haskell (mostly with GHC)? Is it possible to evaluate it in runtime (e.g. in GHCi) or is it possible to estimate ...
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ADTs in F# and Scala [closed]

What are the key differences between ADTs in F# and Scala? Is there anything that F#'s ADTs can do but Scala's ADTs cannot (and vice versa)?
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“Pattern matching” of algebraic type data constructors

Let's consider a data type with many constructors: data T = Alpha Int | Beta Int | Gamma Int Int | Delta Int I want to write a function to check if two values are produced with the same ...
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Defining recursive algebraic data types in XML XSD

Imagine I have a recursive algebraic data type like this (Haskell syntax): data Expr = Zero | One | Add Expr Expr | Mul Expr Expr I'd like to represent this in XML, ...
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Choosing among alternatives in a Haskell algebraic datatype

When type X is defined as: data X = X { sVal :: String } | I { iVal :: Int } | B { bVal :: Bool } and I want the Int inside an X value, if there is one, otherwise zero. returnInt :: ...
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Haskell's algebraic data types

I'm trying to fully understand all of Haskell's concepts. In what ways are algebraic data types similar to generic types, e.g., in C# and Java? And how are they different? What's so algebraic about ...