# Research area

### From HaskellWiki

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(→. The key ideea) |
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Ten years later a simple and clear solution (2008) was given by Dan Popa [[User:Ha$kell]] in a speech scheduled for [[AngloHaskell/2008]] http://www.haskell.org/haskellwiki/AngloHaskell/2008 | Ten years later a simple and clear solution (2008) was given by Dan Popa [[User:Ha$kell]] in a speech scheduled for [[AngloHaskell/2008]] http://www.haskell.org/haskellwiki/AngloHaskell/2008 | ||

− | You may download the presentation from http://www.haskell.org/ | + | You may download the presentation from http://www.haskell.org/wikiupload/1/1d/Prezentare-Anglo-Haskell-2008-draft2-more-slides.pdf |

+ | ==. The key ideea == | ||

− | Why this solution is so interesting | + | Those monadic replacements for data constructors are simultaneously '''syntax and semantics''' and works with every monad ! |

+ | |||

+ | The main ideea is extremely simple: a data constructor as those defined in a data declaration can be replaced with something like: | ||

+ | |||

+ | <haskell> | ||

+ | |||

+ | plus x y = do { valueofx <- x; | ||

+ | valueofy <- y; | ||

+ | return (f x y) } | ||

+ | where (f) = (+) | ||

+ | |||

+ | </haskell> | ||

+ | |||

+ | See more examples here on the page of [[Modular Monadic Compilers for Programming Languages]]. | ||

+ | |||

+ | ==. Why this solution is so interesting == | ||

+ | |||

+ | And why it is so simple and clear ?Let's see: | ||

* it did not use a fixpoint operator !! | * it did not use a fixpoint operator !! | ||

* it did not use a Maybe (high level embeded) type !! | * it did not use a Maybe (high level embeded) type !! | ||

Line 19: | Line 37: | ||

* as a consequence it did not use Data Constructors anymore !! | * as a consequence it did not use Data Constructors anymore !! | ||

* it is introducing ''pseudoconstructors over monadic values'' because the chain of unevaluated (yet) functions is actually forming a datastructure . do not forget that Haskell is a lazy evaluation language !! | * it is introducing ''pseudoconstructors over monadic values'' because the chain of unevaluated (yet) functions is actually forming a datastructure . do not forget that Haskell is a lazy evaluation language !! | ||

+ | * because it is usable in a large sort of projects involving modular trees and modular monadic semantics (on every monad) | ||

+ | * because we used it succesfuly for modular: | ||

+ | ** evaluators | ||

+ | ** typecheckers : references will be added | ||

+ | ** compilers :[[Modular Monadic Compilers for Programming Languages]] | ||

− | Why this solution is valuable | + | ==. Why this solution is valuable .== |

* because we have already built modular languages like [[Rodin]] using it. | * because we have already built modular languages like [[Rodin]] using it. | ||

− | * because it works with just a bit overloading of the system : See final pages of http://www.haskell.org/ | + | * because it works with just a bit overloading of the system : See final pages of http://www.haskell.org/wikiupload/1/1d/Prezentare-Anglo-Haskell-2008-draft2-more-slides.pdf |

* because it is modular | * because it is modular | ||

* because language construction tools are valuable software (1000$ a Licence for a good language generator.) | * because language construction tools are valuable software (1000$ a Licence for a good language generator.) | ||

* because it fits in the previous kind of systems with truee small modifications (just replace a single letter of a data constructor to transform it in a pseudoconstructor ...) | * because it fits in the previous kind of systems with truee small modifications (just replace a single letter of a data constructor to transform it in a pseudoconstructor ...) | ||

+ | * the modular typecheckers can also be build using this tech. | ||

* because my Ph.D Superviser is wishing to sell custom languages with a price of aprox 10 000$ / language - or at least he declared this some times ago. | * because my Ph.D Superviser is wishing to sell custom languages with a price of aprox 10 000$ / language - or at least he declared this some times ago. | ||

Line 31: | Line 55: | ||

Ill be back. Download and read the latest papers of Dan Popa from [[User:Ha$kell]]'s homepage. | Ill be back. Download and read the latest papers of Dan Popa from [[User:Ha$kell]]'s homepage. | ||

− | |||

− | |||

− | ==. Monadic Interpretation == | + | ==. Modular Monadic Interpretation == |

− | ... | + | See the [[Rodin]] project. |

+ | ... | ||

+ | Find some basics and news in [[Practica interpretarii monadice]]. (Ro - book) | ||

+ | |||

+ | ==. Modular Monadic Type-Checking == | ||

+ | Will be added... | ||

+ | |||

+ | ==. Modular Monadic Compilation == | ||

+ | See [[Modular Monadic Compilers for Programming Languages]], this page from 2011. | ||

==. References == | ==. References == | ||

Dan Popa, "Modular evaluation and interpreters using monads and type classes in Haskell" , Studii si Cercetari Ştiinţifice, Seria Matematica, Univ. Bacău, (18) 2008. An Open Office (.sxw) file ''including example code'' is available here: | Dan Popa, "Modular evaluation and interpreters using monads and type classes in Haskell" , Studii si Cercetari Ştiinţifice, Seria Matematica, Univ. Bacău, (18) 2008. An Open Office (.sxw) file ''including example code'' is available here: | ||

− | [http://www.haskell.org/ | + | [http://www.haskell.org/wikiupload/1/15/Paper-v5.sxw Download .sxw ] After loading the .sxw in the Open Office, press the PDF button from the toolbar to produce your own .pdf file. Or |

− | [http://www.haskell.org/ | + | [http://www.haskell.org/wikiupload/7/7d/POPA_D.pdf Official PDF of the paper for <DOWNLOAD> ], having the following title: |

Direct modular evaluation of expressions using the monads and type classes in Haskell by DAN V. POPA | Direct modular evaluation of expressions using the monads and type classes in Haskell by DAN V. POPA | ||

Line 52: | Line 82: | ||

Nr. 18 (2008), pag. 233 – 248 | Nr. 18 (2008), pag. 233 – 248 | ||

− | The paper is introducing [[Pseudoconstructors over monadic values]] as a way of building modular trees without [[data]] or Haskell extensions. [http://www.haskell.org/ | + | The paper is introducing [[Pseudoconstructors over monadic values]] as a way of building modular trees without [[data]] or Haskell extensions. [http://www.haskell.org/wikiupload/7/7d/POPA_D.pdf http://www.haskell.org/wikiupload/7/7d/POPA_D.pdf]. Modular adaptable interpreters for extensible languages - like [[Rodin]] - become now easy to build, without the need of any Haskell extensions. |

Adaptable Software - Modular Extensible Monadic Entry-pointless Type Checker in Haskell by Dan Popa , Ro/Haskell Group, Univ. “V.Alecsandri”, Bacau [http://www.haskell.org/wikiupload/5/57/Types2.ps <DOWNLOAD> in .ps format] | Adaptable Software - Modular Extensible Monadic Entry-pointless Type Checker in Haskell by Dan Popa , Ro/Haskell Group, Univ. “V.Alecsandri”, Bacau [http://www.haskell.org/wikiupload/5/57/Types2.ps <DOWNLOAD> in .ps format] | ||

+ | The paper was (on 27th of may 2011) presented to the NCMI 2011 Conference, in Bacau. | ||

more | more | ||

... will be added | ... will be added | ||

− | ==. | + | |

− | ... | + | |

+ | ==. 'Dotted' list of references: == | ||

+ | |||

+ | [1] http://www.haskell.org/haskellwiki/Pseudoconstructors_over_monadic_values | ||

+ | They have a page here, but only paragraph #7 is in English now. | ||

+ | |||

+ | [2] Something in English | ||

+ | http://www.haskell.org/haskellwiki/Research_area | ||

+ | |||

+ | [3] A paper , where the main simple ideea is at the base of page | ||

+ | http://www.haskell.org/wikiupload/7/7d/POPA_D.pdf | ||

+ | |||

+ | [4] The draft of a presentation | ||

+ | http://www.haskell.org/wikiupload/1/1d/Prezentare-Anglo-Haskell-2008-draft2-more-slides.pdf | ||

+ | (maybe a good point to start) | ||

+ | |||

+ | ... | ||

---- | ---- | ||

[http://www.haskell.org/haskellwiki/Pseudoconstructors_over_monadic_values Go to Pseudoconstructors Page -> http://www.haskell.org/haskellwiki/Pseudoconstructors_over_monadic_values] | [http://www.haskell.org/haskellwiki/Pseudoconstructors_over_monadic_values Go to Pseudoconstructors Page -> http://www.haskell.org/haskellwiki/Pseudoconstructors_over_monadic_values] |

## Latest revision as of 08:50, 26 July 2011

## Contents |

## [edit] 1 . The Expression Problem

In 1998 P.Wadler had defined "The Expresion Problem" (accordingly to Wouter Swierstra - Data types a la carte ).

"The goal is to define a data type by case, where one can add new cases to the data type and new functions over the dat a type , without recompiling existing code, and while retaining static type safety."

Ten years later a simple and clear solution (2008) was given by Dan Popa User:Ha$kell in a speech scheduled for AngloHaskell/2008 http://www.haskell.org/haskellwiki/AngloHaskell/2008
You may download the presentation from http://www.haskell.org/wikiupload/1/1d/Prezentare-Anglo-Haskell-2008-draft2-more-slides.pdf

## [edit] 2 . The key ideea

Those monadic replacements for data constructors are simultaneously **syntax and semantics** and works with every monad !

The main ideea is extremely simple: a data constructor as those defined in a data declaration can be replaced with something like:

plus x y = do { valueofx <- x; valueofy <- y; return (f x y) } where (f) = (+)

See more examples here on the page of Modular Monadic Compilers for Programming Languages.

## [edit] 3 . Why this solution is so interesting

And why it is so simple and clear ?Let's see:

- it did not use a fixpoint operator !!
- it did not use a Maybe (high level embeded) type !!
- it did not propose a Haskell extension !!
- it did not use
**data**declaration anymore !! - as a consequence it did not use Data Constructors anymore !!
- it is introducing
*pseudoconstructors over monadic values*because the chain of unevaluated (yet) functions is actually forming a datastructure . do not forget that Haskell is a lazy evaluation language !! - because it is usable in a large sort of projects involving modular trees and modular monadic semantics (on every monad)
- because we used it succesfuly for modular:
- evaluators
- typecheckers : references will be added
- compilers :Modular Monadic Compilers for Programming Languages

## [edit] 4 . Why this solution is valuable .

- because we have already built modular languages like Rodin using it.
- because it works with just a bit overloading of the system : See final pages of http://www.haskell.org/wikiupload/1/1d/Prezentare-Anglo-Haskell-2008-draft2-more-slides.pdf
- because it is modular
- because language construction tools are valuable software (1000$ a Licence for a good language generator.)
- because it fits in the previous kind of systems with truee small modifications (just replace a single letter of a data constructor to transform it in a pseudoconstructor ...)
- the modular typecheckers can also be build using this tech.
- because my Ph.D Superviser is wishing to sell custom languages with a price of aprox 10 000$ / language - or at least he declared this some times ago.

References: see the .pdf of the latest papers from User:Ha$kell's homepage. Ill be back. Download and read the latest papers of Dan Popa from User:Ha$kell's homepage.

## [edit] 5 . Modular Monadic Interpretation

See the Rodin project. ... Find some basics and news in Practica interpretarii monadice. (Ro - book)

## [edit] 6 . Modular Monadic Type-Checking

Will be added...

## [edit] 7 . Modular Monadic Compilation

See Modular Monadic Compilers for Programming Languages, this page from 2011.

## [edit] 8 . References

Dan Popa, "Modular evaluation and interpreters using monads and type classes in Haskell" , Studii si Cercetari Ştiinţifice, Seria Matematica, Univ. Bacău, (18) 2008. An Open Office (.sxw) file *including example code* is available here:
Download .sxw After loading the .sxw in the Open Office, press the PDF button from the toolbar to produce your own .pdf file. Or
Official PDF of the paper for <DOWNLOAD> , having the following title:

Direct modular evaluation of expressions using the monads and type classes in Haskell by DAN V. POPA UNIVERSITATEA DIN BACĂU STUDII ŞI CERCETĂRI ŞTIINŢIFICE Seria: MATEMATICĂ Un draft al lucrarii Adaptable Software - Modular Extensible Monadic Entry-pointless Type Checker in Haskell by Dan Popa , Ro/Haskell Group, Univ. “V.Alecsandri”, Bacau este aici: download Nr. 18 (2008), pag. 233 – 248

The paper is introducing Pseudoconstructors over monadic values as a way of building modular trees without data or Haskell extensions. http://www.haskell.org/wikiupload/7/7d/POPA_D.pdf. Modular adaptable interpreters for extensible languages - like Rodin - become now easy to build, without the need of any Haskell extensions.

Adaptable Software - Modular Extensible Monadic Entry-pointless Type Checker in Haskell by Dan Popa , Ro/Haskell Group, Univ. “V.Alecsandri”, Bacau <DOWNLOAD> in .ps format
The paper was (on 27th of may 2011) presented to the NCMI 2011 Conference, in Bacau.

more ... will be added

## [edit] 9 . 'Dotted' list of references:

[1] http://www.haskell.org/haskellwiki/Pseudoconstructors_over_monadic_values They have a page here, but only paragraph #7 is in English now.

[2] Something in English http://www.haskell.org/haskellwiki/Research_area

[3] A paper , where the main simple ideea is at the base of page http://www.haskell.org/wikiupload/7/7d/POPA_D.pdf

[4] The draft of a presentation http://www.haskell.org/wikiupload/1/1d/Prezentare-Anglo-Haskell-2008-draft2-more-slides.pdf (maybe a good point to start)

...