Datalog is a declarative logic programming language that syntactically is a subset of Prolog. It is often used as a query language for deductive databases. In recent years, Datalog has found new application in data integration, information extraction, networking, program analysis, security, and cloud computing.
Its origins date back to the beginning of logic programming, but it became prominent as a separate area around 1977 when Hervé Gallaire and Jack Minker organized a workshop on logic and databases. David Maier is credited with coining the term Datalog.
Features, limitations and extensionsEdit
Unlike in Prolog, statements of a Datalog program can be stated in any order. Furthermore, Datalog queries on finite sets are guaranteed to terminate, so Datalog does not have Prolog's cut operator. This makes Datalog a fully declarative language.
In contrast to Prolog, Datalog
- disallows complex terms as arguments of predicates, e.g., p (1, 2) is admissible but not p (f (1), 2),
- imposes certain stratification restrictions on the use of negation and recursion,
- requires that every variable that appears in the head of a clause also appears in a nonarithmetic positive (i.e. not negated) literal in the body of the clause,
- requires that every variable appearing in a negative literal in the body of a clause also appears in some positive literal in the body of the clause
Query evaluation with Datalog is based on first-order logic, and is thus sound and complete. However, Datalog is not Turing complete, and is thus used as a domain-specific language that can take advantage of efficient algorithms developed for query resolution. Indeed, various methods have been proposed to efficiently perform queries, e.g., the Magic Sets algorithm, tabled logic programming or SLG resolution.
Some widely used database systems include ideas and algorithms developed for Datalog. For example, the SQL:1999 standard includes recursive queries, and the Magic Sets algorithm (initially developed for the faster evaluation of Datalog queries) is implemented in IBM's DB2. Moreover, Datalog engines are behind specialised database systems such as Intellidimension's database for the semantic web.
Several extensions have been made to Datalog, e.g., to support aggregate functions, to allow object-oriented programming, or to allow disjunctions as heads of clauses. These extensions have significant impacts on the definition of Datalog's semantics and on the implementation of a corresponding Datalog interpreter.
Datalog programs may or may not use negation in rule bodies: Datalog programs with negation are often required to use it as stratified negation to ensure that the semantics are well-defined. Datalog programs may or may not use inequalities between variables in rule bodies.
Some syntactic fragments of Datalog have been defined, such as the following (from most restricted to least restricted):
- linear Datalog, where rule bodies must consist of a single atom
- guarded Datalog, where for every rule, all the variables that occur in the rule bodies must occur together in at least one atom, called a guard atom
- frontier-guarded Datalog, where for every rule, all the variables that are shared between the rule body and the rule head (called the frontier variables) must all occur together in a guard atom
Another restriction concerns the use of recursion: nonrecursive Datalog is defined by disallowing recursion in the definition of Datalog programs. This fragment of Datalog is as expressive as unions of conjunctive queries, but writing queries as nonrecursive Datalog can be more concise.
The boundedness problem for Datalog asks, given a Datalog program, whether it is bounded, i.e., the maximal recursion depth reached when evaluating the program on an input database can be bounded by some constant. In other words, this question asks whether the Datalog program could be rewritten as a nonrecursive Datalog program. Solving the boundedness problem on arbitrary Datalog programs is undecidable, but it can be made decidable by restricting to some fragments of Datalog.
These two lines define two facts, i.e. things that always hold:
parent(xerces, brooke). parent(brooke, damocles).
This is what they mean: xerces is a parent of brooke and brooke is a parent of damocles. The names are written in lowercase because strings beginning with an uppercase letter stand for variables.
These two lines define rules, which define how new facts can be inferred from known facts.
ancestor(X, Y) :- parent(X, Y). ancestor(X, Y) :- parent(X, Z), ancestor(Z, Y).
- X is an ancestor of Y if X is a parent of Y.
- X is an ancestor of Y if X is a parent of some Z, and Z is an ancestor of Y.
This line is a query:
?- ancestor(xerces, X).
It asks the following: Who are all the X that xerces is an ancestor of? It would return brooke and damocles when posed against a Datalog system containing the facts and rules described above.
More about rules: a rule has a :- symbol in the middle: the part to the left of this symbol is the head of the rule, the part to the right is the body. A rule reads like this: <head> is known to be true if it is known that <body> is true. Uppercase letters in rules stand for variables: in the example, we don't know who X or Y are, but some X is the ancestor of some Y if that X is the parent of that Y. The ordering of the clauses is irrelevant in Datalog, in contrast to Prolog, which depends on the ordering of clauses for computing the result of the query call.
Datalog distinguishes between extensional predicate symbols (defined by facts) and intensional predicate symbols (defined by rules). In the example above
ancestor is an intensional predicate symbol, and
parent is extensional. Predicates may also be defined by facts and rules and therefore neither be purely extensional nor intensional, but any Datalog program can be rewritten into an equivalent program without such predicate symbols with duplicate roles.
Systems implementing DatalogEdit
Here is a short list of systems that are either based on Datalog or provide a Datalog interpreter:
Free software/open sourceEdit
|Written in||Name||Try it online||External Database||Description||Licence|
|C||XSB||A logic programming and deductive database system for Unix and MS Windows with tabling giving Datalog-like termination and efficiency, including incremental evaluation||GNU LGPL|
|C++||Coral||A deductive database system written in C++ with semi-naïve datalog evaluation. Developed 1988-1997.||custom licence, free for non-commercial use|
|DLV||A Datalog extension that supports disjunctive head clauses.||custom licence, free for academic and non-commercial educational use, as well as for use by non-profit organisations|
|Inter4QL||an open-source command-line interpreter of Datalog-like 4QL query language implemented in C++ for Windows, Mac OS X and Linux. Negation is allowed in heads and bodies of rules as well as in recursion||GNU GPL v3|
|RDFox||RDF triple store with Datalog reasoning. Implements the FBF algorithm for incremental evaluation.||custom licence, free for non-commercial use|
|Souffle||an open-source Datalog-to-C++ compiler converting Datalog into high-performance, parallel C++ code, specifically designed for complex Datalog queries over large data sets as e.g. encountered in the context of static program analysis||UPL v1.0
|Clojure||Cascalog||Hadoop||a Clojure library for querying data stored on Hadoop clusters||Apache|
|Clojure Datalog||a contributed library implementing aspects of Datalog||Eclipse Public License 1.0|
|Crux||Yes||Apache Kafka||A general-purpose database with an "unbundled" architecture, using log-centric streaming of documents and transactions to achieve significant architectural flexibility and elegant horizontal scaling. Pluggable components include Kafka, RocksDB and LMDB. Indexes are bitemporal to support point-in-time Datalog queries by default. Java and HTTP APIs are provided.||MIT License|
|Datascript||in-memory||Immutable database and Datalog query engine that runs in the browser||Eclipse Public License 1.0|
|Datahike||file, in-memory||A fork of Datascript with a durable backend using a hitchiker tree.||Eclipse Public License 1.0|
|Erlang||Datalog||The library is designed to query and formalise relation of n-ary streams using datalog. It implements an ad-hoc query engine using simplified version of general logic programming paradigm. The library facilitates development of data integration, information exchange and semantic web applications.||Apache v2|
|Haskell||Dyna||Dyna is a declarative programming language for statistical AI programming. The language is based on Datalog, supports both forward and backward chaining, and incremental evaluation.||GNU AGPL v3|
|DDlog||DDlog is an incremental, in-memory, typed Datalog engine. It is well suited for writing programs that incrementally update their output in response to input changes. The DDlog programmer specifies the desired input-output mapping in a declarative manner, using a dialect of Datalog. The DDlog compiler then synthesizes an efficient incremental implementation. DDlog is based on the differential dataflow library.||MIT License|
|Java||AbcDatalog||AbcDatalog is an open-source implementation of the logic programming language Datalog written in Java. It provides ready-to-use implementations of common Datalog evaluation algorithms, as well as some experimental multi-threaded evaluation engines. It supports language features beyond core Datalog such as explicit (dis-)unification of terms and stratified negation. Additionally, AbcDatalog is designed to be easily extensible with new evaluation engines and new language features.||BSD|
|IRIS||IRIS extends Datalog with function symbols, built-in predicates, locally stratified or un-stratified logic programs (using the well-founded semantics), unsafe rules and XML schema data types||GNU LGPL v2.1|
|Jena||a Semantic Web framework which includes a Datalog implementation as part of its general purpose rule engine, which provides OWL and RDFS support.||Apache v2|
|SociaLite||SociaLite is a datalog variant for large-scale graph analysis developed in Stanford||Apache v2|
|Graal||Graal is a Java toolkit dedicated to querying knowledge bases within the framework of existential rules, aka Datalog+/-.||CeCILL v2.1|
|Flix||Yes||A functional and logic programming language inspired by Datalog extended with user-defined lattices and monotone filter/transfer functions.||Apache v2
|Lua||Datalog||Yes||a lightweight deductive database system.||GNU LGPL
|OCaml||datalog||An in-memory datalog implementation for OCaml featuring bottom-up and top-down algorithms.||BSD 2-clause
|Prolog||DES||an open-source implementation to be used for teaching Datalog in courses||GNU LGPL
|Python||pyDatalog||11 dialects of SQL||adds logic programming to Python's toolbox. It can run logic queries on databases or Python objects, and use logic clauses to define the behavior of Python classes.||GNU LGPL
|Racket||Datalog for Racket||GNU LGPL|
|Datafun||Generalized Datalog on Semilattices||GNU LGPL
|Ruby||bloom / bud||A Ruby DSL for programming with data-centric constructs, based on the Dedalus extension of Datalog which adds a temporal dimension to the logic.||BSD 3-Clause|
|Rust||Datafrog||Datafrog is a lightweight Datalog engine intended to be embedded in other Rust programs.||MIT License / Apache 2.0|
|Tcl||tclbdd||Implementation based on binary decision diagrams. Built to support development of an optimizing compiler for Tcl.||BSD
|Other or Unknown Languages||bddbddb||an implementation of Datalog done at Stanford University. It is mainly used to query Java bytecode including points-to analysis on large Java programs||GNU LGPL|
|ConceptBase||a deductive and object-oriented database system based on a Datalog query evaluator : Prolog for triggered procedures and rewrites, axiomatized Datalog called « Telos » for (meta)modeling. It is mainly used for conceptual modeling and metamodeling||BSD 2-Clause|
- Datomic is a distributed database designed to enable scalable, flexible and intelligent applications, running on new cloud architectures. It uses Datalog as the query language.
- FoundationDB provides a free-of-charge database binding for pyDatalog, with a tutorial on its use.
- Leapsight Semantic Dataspace (LSD) is a distributed deductive database that offers high availability, fault tolerance, operational simplicity, and scalability. LSD uses Leaplog (a Datalog implementation) for querying and reasoning and was create by Leapsight.
- LogicBlox, a commercial implementation of Datalog used for web-based retail planning and insurance applications.
- Profium Sense is a native RDF compliant graph database written in Java. It provides Datalog evaluation support of user defined rules.
- QL, a commercial object-oriented variant of Datalog created by Semmle for analyzing source code to detect security vulnerabilities.
- SecPAL a security policy language developed by Microsoft Research.
- Stardog is a graph database, implemented in Java. It provides support for RDF and all OWL 2 profiles providing extensive reasoning capabilities, including datalog evaluation.
- StrixDB: a commercial RDF graph store, SPARQL compliant with Lua API and Datalog inference capabilities. Could be used as httpd (Apache HTTP Server) module or standalone (although beta versions are under the Perl Artistic License 2.0).
- Huang, Green, and Loo, "Datalog and Emerging applications", SIGMOD 2011 (PDF), UC DavisCS1 maint: multiple names: authors list (link).
- Gallaire, Hervé; Minker, John ‘Jack’, eds. (1978), "Logic and Data Bases, Symposium on Logic and Data Bases, Centre d'études et de recherches de Toulouse, 1977", Advances in Data Base Theory, New York: Plenum Press, ISBN 978-0-306-40060-5.
- Abiteboul, Serge; Hull, Richard; Vianu, Victor (1995), Foundations of databases, p. 305, ISBN 9780201537710.
- Bancilhon. "Magic sets and other strange ways to implement logic programs" (PDF). PT: UNL. Archived from the original (PDF) on 2012-03-08. Cite journal requires
- Pfenning, Frank; Schuermann, Carsten. "Twelf User's Guide". CMU. Cite journal requires
- "Efficient top-down computation of queries under the well-founded semantics" (PDF). Cite journal requires
- Gryz; Guo; Liu; Zuzarte (2004). "Query sampling in DB2 Universal Database" (PDF). Proceedings of the 2004 ACM SIGMOD international conference on Management of data - SIGMOD '04. p. 839. doi:10.1145/1007568.1007664. ISBN 978-1581138597.
- Hillebrand, Gerd G; Kanellakis, Paris C; Mairson, Harry G; Vardi, Moshe Y (1995-11-01). "Undecidable boundedness problems for datalog programs". The Journal of Logic Programming. 25 (2): 163–190. doi:10.1016/0743-1066(95)00051-K. ISSN 0743-1066.
- Lifschitz (2011). "Datalog Programs and Their Stable Models". Datalog Reloaded. Lecture Notes in Computer Science. 6702. DE: Springer. pp. 78–87. CiteSeerX 10.1.1.225.4027. doi:10.1007/978-3-642-24206-9_5. ISBN 978-3-642-24205-2.
- The XSB System, Version 3.7.x, Volume 1: Programmer's Manual (PDF).
- Coral Database Project web page.
- "DLVSYSTEM S.r.l. | DLV". www.dlvsystem.com. Retrieved 2018-11-29..
- "DLVSYSTEM S.r.l. | DLV". www.dlvsystem.com. Retrieved 2018-11-29.
- RDFox web page.
- RDFox licence, archived from the original on 2018-02-21, retrieved 2018-11-29.
- Souffle Compiler, 2018-12-12.
- "Dyna", Dyna web page, archived from the original on 2016-01-17, retrieved 2016-11-07.
- Differential Dataflow
- Iris reasoner.
- "Jena". Source forge.
- SociaLite homepage, archived from the original on 2017-09-11, retrieved 2015-10-12.
- Graal library.
- "Flix The Programming Language", flix.dev, retrieved 2019-08-26.
- Ramsdell, "Datalog", Tools, NEU.
- Cruanes, Simon, "datalog", datalog, GitHub.
- Saenz-Perez (2011), "DES: A Deductive Database System", Electronic Notes in Theoretical Computer Science, ES, 271: 63–78, doi:10.1016/j.entcs.2011.02.011.
- "Datalog", Racket (technical documentation).
- "Datafun", Datafun in Racket (Links to paper, talk and github site).
- Kenny, Kevin B (12–14 November 2014). Binary decision diagrams, relational algebra, and Datalog: deductive reasoning for Tcl (PDF). Twenty-first Annual Tcl/Tk Conference. Portland, Oregon. Retrieved 29 December 2015.[permanent dead link]
- "bddbddb", Source forge.
- FoundationDB Datalog Tutorial, archived from the original on 2013-08-09.
- "Leapsight". Archived from the original on 2018-11-11.
- Semmle QL.
- "SecPAL". Microsoft Research. Archived from the original on 2007-02-23.