Difference between revisions of "Applications and libraries/Compilers and interpreters"

Revision as of 12:08, 17 September 2014

Haskell, with its support for pattern matching on data structures, generic structure traversals, and expressive type system, is popular for implementing compilers and interpreters. Here's a selection of compilers and interpreters implemented in Haskell.

Large languages

Haskell

GHC: GHC, The Glasgow Haskell Compiler, is written in Haskell

Yhc: Yhc, The York Haskell Compiler, is written in Haskell

Jhc: Jhc is a Haskell compiler which aims to produce the most efficient programs possible via whole program analysis

nhc98: A compiler for Haskell 98, written in Haskell

Ehc: The purpose of the EHC project is to provide a description of a Haskell compiler which is as understandable as possible so it can be used for education as well as research.

UHC: UHC is the Utrecht Haskell Compiler. UHC supports almost all Haskell 98 features plus experimental extensions. The compiler runs under Mac OS X, Windows (Cygwin), and various Unix flavors.

pH: A parallel version of Haskell from MIT.

Helium

Helium: A Haskell subset for educational purposes

Generic Haskell

Generic Haskell: An extension of Haskell that supports generic programming

Data Field Haskell

Data Field Haskell: A dialect of the functional programming language Haskell that provides an instance of data fields

Eden

Eden: A Haskell dialect for parallel programming

Chameleon

Chameleon: A Haskell-style language which implements the ideas described in a ``A Theory of Overloading``

CHR (Constraint Handling Rules)

Haskell CHR: A concurrent committed-choice constraint logic programming language, implemented using GHC's software transactional memory. According to the site referenced by the above-mentioned link, "It also contains an implementation of WAM for Haskell, so Prolog-style terms with variables are now possible."

STM-based CHR implementation, by Michael Stahl (gzipped TAR file)

CCHR: STM-based CHR implementation by Lam and Sulzmann: According to the site referenced by the above-mentioned link, "CCHR is an experimental concurrent implementation of Constraint Handling Rules, designed to exploit concurrency and parallelism explicitly. CCHR is implemented in Haskell, with software transactional memory to manage synchronization of multiple solver threads working on the same problem. Constraint Handling Rules (CHR) is a concurrent committed choice constraint logic programming language to describe transformations (rewritings) among multi-sets of constraints (atomic formulae). CHR naturally support concurrent programming. Conjunction of constraints can be regarded as interacting collections of multiple asynchronous agents or processes. Their interaction is specified via transformation rules which can be applied simultaneously if the transformation rules do not interfere. Hence, one would expect to run CHR faster by executing transformation rules in parallel on a multi-core machine architecture. CCHR exactly allows such concurrency while solving CHR problems and exhibits significant speed up in most problems when executed on multi-core systems."

Elm

Elm: The Elm programming language aims to make web development more pleasant. Elm is a type-safe, functional reactive language that compiles to HTML, CSS, and JavaScript.

BASIC

BASIC: A simplified version of the original BASIC embedded in Haskell.

Liskell

Liskell: Liskell is Haskell on the inside but looks like Lisp on the outside

Perl

Pugs: Pugs is an implementation of Perl 6, written in Haskell. It aims to implement the full Perl6 specification.

Python

Berp: Berp is an implementation of Python 3 in Haskell.

haspy: Haspy is an implementation of Python in Haskell

Ruby

RType: RType is a Ruby interpreter written in Haskell

Flapjax

Flapjax: Flapjax is a language for functional reactive programming of AJAX web applications, whose compiler (source) is written in Haskell.

Scheme

Write Yourself a Scheme in 48 Hours: A small Scheme interpreter

A Scheme in Haskell

Lisp

A Lisp Interpreter In Haskell: A small lisp interpreter written in Haskell

Emacs Lisp

Helisp: The beginnings of an Emacs lisp compiler/interpreter.

Epigram

Epigram: Epigram is a prototype dependently typed functional programming language

Curry

The Münster Curry Compiler: A native code compiler for the declarative multi-paradigm language Curry, written in Haskell

Bluespec

Bluespec: A compiler for a hardware description language translating a Haskell-like (but with System Verilog syntax these days) language to Verilog.

Cayenne

Cayenne: A compiler for a Haskell-like language with dependent types.

Agda

Agda: A Cayenne-like programming language and proof assistant.

PolyP

PolyP: A polytypic programming language

Forth

Harrorth: Harrorth, a Forth interpreter

Eiffel

Dynamic binding in Eiffel: A model of dynamic binding in ECMA Eiffel, in Haskell

Crouton

Crouton: Crouton is a small but fairly complete functional programming language for querying and transforming parsed manuscripts, such as the PPCME. It is intended as an alternative to Corpus Search, based on a different philosophy. It is written in (and largely based on) the very nice functional programming language Haskell using the Parsec library

JavaScript

HJS: HJS is a JavaScript parser written in Haskell. Available from HackageDB.

TCL

Hiccup: Hiccup is a minimalistic TCL interpreter. It tries to be relatively simple, relatively efficient, and mostly correct.

Smalltalk

hst: HST is a Smalltalk implementation in Haskell. See here for more information

Disciple

DDC: Disciple is an explicitly lazy dialect of Haskell which supports destructive update, computational effects, type directed field projections and some other useful things.

Timber

Timber: Timber is a modern language for building event-driven systems, based around the notion of reactive objects. It is also a purely functional language derived from Haskell, although with a strict evaluation semantics. The Timber compiler currently runs on Linux and MacOS X platforms, but uses gcc as its back-end so it should be easily portable to most POSIX-like environments.

Small languages

Baskell

Baskell: An interpreter for a small functional programming language. Supports strict and non-strict evaluation, and type inference. Useful for teaching purposes.

LambdaPi

LambdaPi: LambdaPi, An Implementation of a Dependently Typed Lambda Calculus

Unlambda

Unlambda.hs: An implementation of Unlambda in Haskell

BF

BF.hs: An implementation of BF in Haskell

Lambda calculus

4 lambda calculus implementations: With code, by Lennart Augustsson.

LMEngine: An implementation of the untyped lambda calculus

QML, a functional quantum programming language

QML: A Functional Quantum Programming Language project: It is implemented in Haskell.

For online material on quantum computing in general, see Quantum Computation course held by John Preskill.

HQL - HHM's Quantified Lambda

Hernan's Quantified Lambda: a small functional language, whose expressions can involve the use of quantifier operators

Atom

Atom: Atom is a small HDL that compiles conditional term rewriting systems down to Verilog RTL.

Feldspar

Feldspar: Feldspar (Functional Embedded Language for DSP and PARallelism) is an embedded DSL for describing digital signal processing algorithms developed at Ericsson.

AL (Assignment Language)

It is used for teaching purposes in at the Technical University of Vienna.

An interpreter implemented in Haskell is described in ALI - an AL Interpreter implemented in Haskell written by Peter Robinson.

Whitespace

Whitespace: A language that uses whitespace characters as language elements and ignores all non-whitespace characters

LIPL

LIPL: An interpreter for a tiny functional programming language. It features Hindley-Milner style type inference.

Ministg

Ministg: An interpreter for a high-level, small-step, operational semantics for the STG machine. Features execution tracing, rendered in HTML. Useful for studying the behaviour of the STG machine and experimenting with extensions to the machine. Also useful for studying program language implementation.

Constantinople

Constantinople: A compiler for the Constantinople esolang. There are two datatypes, the list, and the bit, which can either be 0 or 1. Lists are infinite and lazily evaluated.

Embedded languages

ForSyDe

The ForSyDe (Formal System Design) methodology has been developed with the objective to move system-on-chip design to a higher level of abstraction. ForSyDe is implemented as a Haskell-embedded behavioral DSL.

Debuggers

Debussy: A declarative debugger for OBJ-like languages

See also Debugging.

This page contains a list of libraries and tools in a certain category. For a comprehensive list of such pages, see Applications and libraries.

@@ Line 22: / Line 22: @@
 ;[http://www.cs.uu.nl/groups/ST/Ehc/WebHome Ehc]
 :The purpose of the EHC project is to provide a description of a Haskell compiler which is as understandable as possible so it can be used for education as well as research.
+;[http://www.cs.uu.nl/wiki/UHC UHC]
+:UHC is the Utrecht Haskell Compiler. UHC supports almost all Haskell 98 features plus experimental extensions. The compiler runs under Mac OS X, Windows (Cygwin), and various Unix flavors.
 ;[http://www.csg.lcs.mit.edu/projects/languages/ph.shtml pH]
 :A parallel version of Haskell from MIT.
 ====Helium====
 ;[http://www.cs.uu.nl/helium/ Helium]
 :A Haskell subset for educational purposes
 ====Generic Haskell====
 ;[http://generic-haskell.org/ Generic Haskell]
 :An extension of Haskell that supports generic programming
 ====Data Field Haskell====
 ;[http://www.mrtc.mdh.se/projects/DFH/ Data Field Haskell]
 :A dialect of the functional programming language Haskell that provides an instance of data fields
 ====Eden====
 ;[http://www.mathematik.uni-marburg.de/~eden/ Eden]
 :A Haskell dialect for parallel programming
-====BASIC====
+====Chameleon====
-;[http://hackage.haskell.org/package/BASIC BASIC]
-:A simplified version of the original BASIC embedded in Haskell.
-====Chameleon====
 ;[http://taichi.ddns.comp.nus.edu.sg/taichiwiki/ChameleonHomePage Chameleon]
 :A Haskell-style language which implements the ideas described in a ``A Theory of Overloading``
 ====CHR (Constraint Handling Rules)====
 ;[http://www.cs.mu.oz.au/~gjd/haskellchr/ Haskell CHR]
 :A concurrent committed-choice constraint logic programming language, implemented using GHC's software transactional memory.  According to the site referenced by the above-mentioned link, "It also contains an implementation of WAM for Haskell, so Prolog-style terms with variables are now possible."
@@ Line 59: / Line 69: @@
 ;[http://taichi.ddns.comp.nus.edu.sg/taichiwiki/CCHR CCHR: STM-based CHR implementation by Lam and Sulzmann]
 :According to the site referenced by the above-mentioned link, "CCHR is an experimental concurrent implementation of Constraint Handling Rules, designed to exploit concurrency and parallelism explicitly. CCHR is implemented in Haskell, with software transactional memory to manage synchronization of multiple solver threads working on the same problem. Constraint Handling Rules (CHR) is a concurrent committed choice constraint logic programming language to describe transformations (rewritings) among multi-sets of constraints (atomic formulae). CHR naturally support concurrent programming. Conjunction of constraints can be regarded as interacting collections of multiple asynchronous agents or processes. Their interaction is specified via transformation rules which can be applied simultaneously if the transformation rules do not interfere. Hence, one would expect to run CHR faster by executing transformation rules in parallel on a multi-core machine architecture. CCHR exactly allows such concurrency while solving CHR problems and exhibits significant speed up in most problems when executed on multi-core systems."
+=== Elm ===
+;[http://elm-lang.org/ Elm]
+:The Elm programming language aims to make web development more pleasant. Elm is a type-safe, functional reactive language that compiles to HTML, CSS, and JavaScript.
+===BASIC===
+;[http://hackage.haskell.org/package/BASIC BASIC]
+:A simplified version of the original BASIC embedded in Haskell.
 ===Liskell===
-;[http://liskell.org Liskell]
+;[http://web.archive.org/web/20120609122549/http://www.liskell.org/ Liskell]
 :Liskell is Haskell on the inside but looks like Lisp on the outside
@@ Line 68: / Line 92: @@
 ;[http://pugscode.org Pugs]
 :Pugs is an implementation of Perl 6, written in Haskell. It aims to implement the full Perl6 specification.
 ===Python===
@@ Line 76: / Line 101: @@
 ;[http://code.google.com/p/haspy/ haspy]
 :Haspy is an implementation of Python in Haskell
 ===Ruby===
@@ Line 81: / Line 107: @@
 ;[http://raa.ruby-lang.org/project/rtype/ RType]
 :RType is a Ruby interpreter written in Haskell
 ===Flapjax===
 ;[http://www.flapjax-lang.org/ Flapjax]
 :Flapjax is a language for functional reactive programming of AJAX web applications, whose compiler ([http://www.flapjax-lang.org/download/flapjax-source.tar.gz source]) is written in Haskell.
 ===Scheme===
@@ Line 92: / Line 120: @@
 ;[http://www.korgwal.com/haskeem/ A Scheme in Haskell]
 ===Lisp===
@@ Line 97: / Line 126: @@
 ;[http://www.defmacro.org/ramblings/lisp-in-haskell.html A Lisp Interpreter In Haskell]
 :A small lisp interpreter written in Haskell
 === Emacs Lisp ===
 ;[http://www.codersbase.com/index.php/helisp Helisp]
 :The beginnings of an Emacs lisp compiler/interpreter.
 ===Epigram===
@@ Line 106: / Line 138: @@
 ;[http://www.e-pig.org/ Epigram]
 :Epigram is a prototype dependently typed functional programming language
 ===Curry===
@@ Line 111: / Line 144: @@
 ;[http://danae.uni-muenster.de/~lux/curry/ The M&uuml;nster Curry Compiler]
 :A native code compiler for the declarative multi-paradigm language Curry, written in Haskell
 ===Bluespec===
 ;[http://www.bluespec.com Bluespec]
 :A compiler for a hardware description language translating a Haskell-like (but with System Verilog syntax these days) language to Verilog.
 ===Cayenne===
-;[http://www.dependent-types.org/ Cayenne]
+;[http://www.augustsson.net/Darcs/Cayenne/html/ Cayenne]
 :A compiler for a Haskell-like language with dependent types.
 ===Agda===
 ;[http://wiki.portal.chalmers.se/agda/pmwiki.php Agda]
 :A Cayenne-like programming language and proof assistant.
 ===PolyP===
 ;[http://www.cs.chalmers.se/~patrikj/poly/polyp/ PolyP]
 :A polytypic programming language
 ===Forth===
@@ Line 132: / Line 173: @@
 ;[http://feather.perl6.nl/~nothingmuch/harrorth/ Harrorth]
 :Harrorth, a Forth interpreter
 ===Eiffel===
@@ Line 137: / Line 179: @@
 ;[http://eiffelsoftware.origo.ethz.ch/index.php/DynBindModelHaskell Dynamic binding in Eiffel]
 :A model of dynamic binding in ECMA Eiffel, in Haskell
 ===Crouton===
@@ Line 142: / Line 185: @@
 ;[http://crouton.sourceforge.net/ Crouton]
 :Crouton is a small but fairly complete functional programming language for querying and transforming parsed manuscripts, such as the PPCME. It is intended as an alternative to Corpus Search, based on a different philosophy. It is written in (and largely based on) the very nice functional programming language Haskell using the Parsec library
 === JavaScript ===
 ;[http://www.haskell.org/haskellwiki/Libraries_and_tools/HJS HJS]
 :HJS is a JavaScript parser written in Haskell. Available from HackageDB.
 ===TCL===
 ;[http://code.google.com/p/hiccup/ Hiccup]
 :Hiccup is a minimalistic TCL interpreter. It tries to be relatively simple, relatively efficient, and mostly correct.
 ===Smalltalk===
@@ Line 155: / Line 203: @@
 ;[http://code.google.com/p/hst/ hst]
 :HST is a Smalltalk implementation in Haskell.  [http://lstephen.wordpress.com/2007/07/23/completing-the-spike/ See here for more information]
 === Disciple ===
 ;[[DDC]]
 :Disciple is an explicitly lazy dialect of Haskell which supports destructive update, computational effects, type directed field projections and some other useful things.
 === Timber ===
 ;[http://timber-lang.org/Timber Timber]
 :Timber is a modern language for building event-driven systems, based around the notion of reactive objects.  It is also a purely functional language derived from Haskell, although with a strict evaluation semantics. The Timber compiler currently runs on Linux and MacOS X platforms, but uses gcc as its back-end so it should be easily portable to most POSIX-like environments.
 ==Small languages==
@@ Line 233: / Line 283: @@
 ;[http://www.haskell.org/haskellwiki/Ministg Ministg]
 :An interpreter for a high-level, small-step, operational semantics for the STG machine. Features execution tracing, rendered in HTML. Useful for studying the behaviour of the STG machine and experimenting with extensions to the machine. Also useful for studying program language implementation.
+=== Constantinople ===
+;[http://zzo38computer.cjb.net/prog/Constantinople.zip Constantinople]
+:A compiler for the Constantinople esolang. There are two datatypes, the list, and the bit, which can either be 0 or 1. Lists are infinite and lazily evaluated.
 == Embedded languages ==