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-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<HTML>
-<HEAD>
-<META NAME="generator" CONTENT="http://txt2tags.sf.net">
-<TITLE>Portable Numeral Translator</TITLE>
-</HEAD><BODY BGCOLOR="white" TEXT="black">
-<P ALIGN="center"><CENTER><H1>Portable Numeral Translator</H1>
-<FONT SIZE="4">
-<I>15 August 2008</I><BR>
-</FONT></CENTER>
-
-<P>
-Here is the first GF application for the iPhone. It translates
-numerals from digits into number words in 15 languages. It works for
-numerals in the range 1-999,999. You can use the demo online in your iPhone's
-browser, or download and install it by using FileMagnet (from AppStore).
-</P>
-<P>
-The demo should work in any web browser supporting JavaScript, but it has been
-specially dimensioned for the iPhone screen. It is an application of a general
-technology, namely the compilation of GF grammars to JavaScript. Thus you can
-easily build similar applications from your own grammars.
-</P>
-<P>
-The
-<A HREF="http://www.cs.chalmers.se/~bringert/gf/translate/">full numeral translator</A>, which
-works in 88 language and permits arbitrary cross translations, cannot yet be ported
-to the iPhone because of memory problems.
-</P>
-<P>
-The current version has some encoding/font issues in Hebrew and Hindi.
-</P>
-<P>
-<A HREF="numbers/numbers.html">Use the translator online</A>
-</P>
-<P>
-<A HREF="numbers.tgz">Download the translator</A>. To install: unpack the file and move
-the directory <CODE>numbers</CODE> to your FileMagnet uploader.
-</P>
-
-<!-- html code generated by txt2tags 2.4 (http://txt2tags.sf.net) -->
-<!-- cmdline: txt2tags -thtml index-numbers.txt -->
-</BODY></HTML>
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-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<HTML>
-<HEAD>
-<META NAME="generator" CONTENT="http://txt2tags.org">
-<META HTTP-EQUIV="Content-Type" CONTENT="text/html; charset=utf-8">
-<LINK REL="stylesheet" TYPE="text/css" HREF="../css/style.css">
-<meta name = "viewport" content = "width = device-width"><TITLE>Grammatical Framework Bibliography</TITLE>
-</HEAD><BODY BGCOLOR="white" TEXT="black">
-<CENTER>
-<H1><a href="../"><IMG src="../doc/Logos/gf0.png"></a>Grammatical Framework Bibliography</H1>
-<FONT SIZE="4"><I>Aarne Ranta</I></FONT><BR>
-<FONT SIZE="4">Tue Nov 27 16:47:06 2012</FONT>
-</CENTER>
-
-<P></P>
-<HR NOSHADE SIZE=1>
-<P></P>
-
- <UL>
- <LI><A HREF="#toc1">Publications on GF</A>
- <LI><A HREF="#toc2">Background for GF</A>
- </UL>
-
-<P></P>
-<HR NOSHADE SIZE=1>
-<P></P>
-
-<A NAME="toc1"></A>
-<H2>Publications on GF</H2>
-
-<P>
-In reverse temporal order:
-</P>
-<P>
-H. Burden and R. Heldal.
-Natural Language Generation from Class Diagrams.
-<I>Proceedings of the 8th International Workshop on Model-Driven Engineering, Verification and Validation (MoDeVVa 2011)</I>,
-Wellington, New Zealand,
-ACM,
-2011.
-<A HREF="http://www.grammaticalframework.org/doc/archive/a9-burden.pdf">Draft PDF</A>
-<br>
-<I>Using GF to verbalize platform-independent requirement specifications as a part of a software engineering tool chain.</I>
-</P>
-<P>
-C. España-Bonet, R. Enache, A. Slaski, A. Ranta, L. Màrquez, and M. Gonzàlez.
-Patent translation within the MOLTO project.
-Proceedings of the 4th Workshop on Patent Translation,
-MT Summit XIII, Xiamen, China, September 23, 2011.
-<A HREF="http://www.lsi.upc.edu/~cristinae/CV/docs/MTS11PatEspanaetal.pdf">PDF</A>
-<br>
-<I>First steps to a hybrid GF-SMT system.</I>
-</P>
-<P>
-Seyed M. Montazeri, Nivir Roy, and Gerardo Schneider.
-From Contracts in Structured English to CL Specifications.
-<I>5th International Workshop on Formal Languages and Analysis of Contract-Oriented Software (FLACOS'11)</I>,
-volume 68 of EPTCS, pages 55-69,
-Málaga, Spain, 22-23 September 2011.
-<A HREF="http://dx.doi.org/10.4204/EPTCS.68.6">PDF/DOI</A>
-<br>
-<I>Formal analysis of contracts written in controlled English.</I>
-</P>
-<P>
-S. Virk, M. Humayoun, and A. Ranta.
-An Open-Source Punjabi Resource Grammar.
-Proceedings of RANLP-2011, Recent Advances in Natural Language Processing,
-Hissar, Bulgaria, 12-14 September, 2011.
-pp. 70-76.
-<A HREF="http://lml.bas.bg/~iva/ranlp2011/RANLR2011_Proceedings.PDF">PDF</A>
-<br>
-<I>Punjabi syntax, building on Humayoun and Ranta 2010.</I>
-</P>
-<P>
-D. Dannélls, M. Damova, R.Enache, M. Chechev.
-A Framework for Improved Access to Museum Databases in the Semantic Web.
-Proceedings of the Workshop on Language Technologies for Digital Humanities and Cultural Heritage,
-RANLP-2011, Recent Advances in Natural Language Processing,
-Hissar, Bulgaria, 12-14 September, 2011,
-pp 8-15
-<A HREF="http://publications.lib.chalmers.se/cpl/record/index.xsql?pubid=145395">PDF</A>
-<br>
-<I>Representing and verbalizing in GF of an Cultural Heritage ontology.</I>
-</P>
-<P>
-A. Ranta.
-Translating between Language and Logic: What Is Easy and What is Difficult?
-In N. Bjørner and V. Sofronie-Stokkermans (eds.),
-<I>CADE-23. Automated Deduction</I>,
-LNCS/LNAI 6803,
-pp. 5-25,
-2011.
-<A HREF="http://www.springerlink.com/content/42n685777k846810/">PDF at Springer</A>
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/cade2011.pdf">Draft PDF</A>
-<br>
-<I>Invited talk at the CADE conference, showing how GF can help writing natural language interfaces</I>
-<I>to proof systems, and also exploring how to make the language richer, e.g. how to get from</I>
-<I>"for all numbers x, x is even or x is odd" to "every number is even or odd".</I>
-</P>
-<P>
-A. Ranta.
-<I>Grammatical Framework: Programming with Multilingual Grammars</I>,
- CSLI Publications, Stanford, 2011.
- <A HREF="http://www.grammaticalframework.org/gf-book/">Book web page</A>
-<br>
-<I>Meant as the standard reference and textbook on GF.</I>
-</P>
-<P>
-O. Caprotti, K. Angelov, R. Enache, T. Hallgren, A. Ranta.
-The MOLTO Phrasebook.
-Swedish Language Technology Conference SLTC 2010.
-<A HREF="http://publications.lib.chalmers.se/cpl/record/index.xsql?pubid=131251">PDF</A>
-<br>
-<I>Tourist Phrasebook grammar, available in 14 European languages.</I>
-</P>
-<P>
-G. Détrez and R. Enache.
-A Framework for Multilingual Applications on the Android Platform
-Swedish Language Technology Conference SLTC 2010.
-<A HREF="http://www.grammaticalframework.org/doc/archive/sltc10_submission_24.pdf">PDF</A>
-<br>
-<I>A description of the Java implementation of the GF runtime system, which makes it possible</I>
-to create grammar-based applications running on an Android phone.//
-</P>
-<P>
-Normunds Gruzitis and Guntis Barzdins.
-Towards a More Natural Multilingual Controlled Language Interface to OWL,
-<I>9th International Conference on Computational Semantics (IWCS)</I>,
-pp. 335-339,
-2011.
-<A HREF="http://www.aclweb.org/anthology/W/W11/W11-0138.pdf">PDF</A>
-<br>
-<I>Access to ontologies in English and Latvian.</I>
-</P>
-<P>
-M. Humayoun and A. Ranta.
-Developing Punjabi Morphology, Corpus and Lexicon.
-<I>The 24th Pacific Asia conference on Language, Information and Computation (PACLIC24)</I>,
-2010.
-<br>
-<I>Yet another South-East Asian language, spoken by 88 million people.</I>
-</P>
-<P>
-J. Camilleri, Gordon J. Pace, and Mike Rosner.
-Playing Nomic using a Controlled Natural Language.
-<I>CNL 2010, Controlled Natural Language</I>,
-Marettimo,
-2010.
-<br>
-<I>Using GF for defining the rules of a game.</I>
-</P>
-<P>
-R. Enache and K. Angelov
-Typeful Ontologies with Direct Multilingual Verbalization.
-<I>CNL 2010, Controlled Natural Language</I>,
-Marettimo,
-2010.
-<br>
-<I>Investigating the benefits of using GF as a language for representing ontologies.</I>
-<A HREF="http://www.grammaticalframework.org/doc/archive/cnl2010_submission_2.pdf">PDF</A>
-</P>
-<P>
-S. Virk, M. Humayoun, and A. Ranta.
-An Open Source Urdu Resource Grammar.
-<I>Proceedings of the 8th Workshop on Asian Language Resources (Coling 2010 workshop)</I>,
-2010.
-<br>
-<I>The national language of Pakistan, spoken by 60 million people; almost the same as Hindi.</I>
-</P>
-<P>
-A. Ranta, K. Angelov, and T. Hallgren.
-Tools for multilingual grammar-based translation on the web.
-<I>Proceedings of the ACL 2010 System Demonstrations</I>,
-ACM Digital Library,
-2010.
-<A HREF="http://www.aclweb.org/anthology-new/P/P10/P10-4012.pdf">PDF</A>
-<br>
-<I>An overview of GF for developers and users of translation systems.</I>
-</P>
-<P>
-D. Dannélls and J. Camilleri.
-Verb Morphology of Hebrew and Maltese - Towards an Open Source Type Theoretical Resource Grammar in GF.
-<I>Proceedings of the Language Resources (LRs) and Human Language Technologies (HLT) for Semitic Languages Status, Updates, and Prospects, LREC-2010 Workshop</I>,
-Malta, pp. 57-61.
-2010.
-<A HREF="http://spraakdata.gu.se/svedd/pub/lrec10.pdf">PDF</A>
-<br>
-<I>A study of Semitic non-concatenative morphology from the GF point of view.</I>
-</P>
-<P>
-M. Humayoun and C. Raffalli.
-MathNat - Mathematical Text in a Controlled Natural Language.
-<I>Special issue: Natural Language Processing and its Applications. Journal on Research in Computing Science</I>, Volume 46.
-2010.
-<br>
-<I>Natural language interface to a proof system, implemented in GF.</I>
-</P>
-<P>
-D. Dannélls.
-Discourse Generation from Formal Specifications Using the Grammatical Framework, GF.
-<I>Special issue: Natural Language Processing and its Applications. Journal on Research in Computing Science (RCS)</I>,
-volume 46. pp. 167-178,
-2010.
-<br>
-<I>Interfacing GF with ontology, with a natural language generation perspective.</I>
-</P>
-<P>
-R. Enache, A. Ranta, and K. Angelov.
-An Open-Source Computational Grammar of Romanian.
-A. Gelbukh (ed.), <I>CiCLING-2010</I>,
-LNCS 6008,
-2010.
-<br>
-<I>A Romance language different enough not to follow the Romance functor.</I>
-</P>
-<P>
-K. Angelov and A. Ranta.
-Implementing Controlled Languages in GF.
-N. Fuchs (ed.), <I>CNL-2009 Controlled Natural Languages</I>,
-LNCS/LNAI 5972,
-2010.
-</P>
-<P>
-K. Angelov, B. Bringert and A. Ranta.
-PGF: A Portable Run-time Format for Type-theoretical Grammars,
-<I>Journal of Logic, Language and Information</I>,
-19(2),
-pp. 201-228,
-2009.
-<A HREF="http://www.springerlink.com/content/y32q021028747k70/">SpringerLink</A>
-</P>
-<P>
-A. Ranta.
-The GF Resource Grammar Library.
-<I>Linguistic Issues in Language Technology</I>,
-2 (2),
-2009.
-<A HREF="http://elanguage.net/journals/index.php/lilt/article/viewFile/214/158">PDF</A>
-<br>
-<I>A systematic presentation of the library from the linguistic point of view.</I>
-</P>
-<P>
-A. Ranta.
-Grammatical Framework: A Multilingual Grammar Formalism,
-<I>Language and Linguistics Compass</I>,
-Vol. 3, <A HREF="http://www.blackwell-compass.com/subject/linguistics/article_view?parent=section&amp;last_results=section%3Dlnco-computational&amp;sortby=date&amp;section=lnco-computational&amp;browse_id=lnco_articles_bpl155&amp;article_id=lnco_articles_bpl155">on-line</A>
-2009.
-<br>
-<I>An overview of GF for readers with a general academic brackground.</I>
-</P>
-<P>
-A. Ranta and K. Angelov.
-Implementing Controlled Languages in GF.
-<I>CNL-2009</I>,
-<I>CEUR Workshop Proceedings</I>,
-vol. 448,
-<A HREF="http://sunsite.informatik.rwth-aachen.de/Publications/CEUR-WS/Vol-448/">on-line</A>,
-2009.
-<br>
-<I>Makes a case for using GF in controlled language implementation, illustrated by Attempto Controlled English ported to French, German, and Swedish; longer version in 2010.</I>
-</P>
-<P>
-A. Ranta. Grammars as Software Libraries.
-In Y. Bertot, G. Huet, J-J. Lévy, and G. Plotkin (eds.),
-<I>From Semantics to Computer Science</I>,
-Cambridge University Press, Cambridge,
-pp. 281-308,
-2009.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/libraries-kahn.pdf">pdf (preliminary version)</A>
-<br>
-<I>Grammar-libraries from the software engineering point of view, with an example application to mathematical language.</I>
-</P>
-<P>
-K. Angelov.
-Incremental Parsing in Parallel Multiple Context-Free Grammars.
-EACL 2009.
-<br>
-<I>Describes the algorithm used in parsing with GF.</I>
-</P>
-<P>
-A. Ranta, B. Bringert, and K. Angelov.
-The GF Grammar Development Environment.
-System demo. Proceedings of <I>EACL-2009</I>,
-2009.
-<A HREF="http://www.aclweb.org/anthology-new/E/E09/E09-2015.pdf">PDF</A>
-<br>
-<I>An overview of GF from the grammarian's point of view.</I>
-</P>
-<P>
-B. Bringert, K. Angelov, and A. Ranta.
-Grammatical Framework Web Service,
-System demo. Proceedings of <I>EACL-2009</I>,
-2009.
-<A HREF="http://www.aclweb.org/anthology-new/E/E09/E09-2003.pdf">PDF</A>
-<br>
-<I>An overview of how to build web services on top of PGF using the Google Web Toolkit.</I>
-</P>
-<P>
-A. Ranta and K. Angelov.
-Implementing Controlled Languages in GF,
-To appear in the proceedings of <I>CNL-2009</I>, LNCS, Springer,
-2009.
-<br>
-<I>On the use of GF for controlled languages, exemplified by an implementation of Attempto Controlled English then ported to three other language.</I>
-</P>
-<P>
-R. Cooper and A. Ranta.
-Natural Languages as Collections of Resources.
-In <I>Language in Flux: Dialogue Coordination, Language Variation, Change</I>,
-ed. by R. Cooper and R. Kempson, pp. 109-120. London: College Publications,
-2008.
-<br>
-<I>The resource grammar idea applied to language learning and evolution.</I>
-</P>
-<P>
-Moisés Salvador Meza Moreno and B. Bringert.
-Interactive Multilingual Web Applications with Grammatical Framework.
-In B. Nordström and A. Ranta (eds),
-<I>Advances in Natural Language Processing (GoTAL 2008)</I>,
-LNCS/LNAI 5221, Springer,
-2008.
-<br>
-<I>Shows how GF compiled to JavaScript is used in dynamic multilingual web pages.</I>
-</P>
-<P>
-Peter Ljunglöf and Staffan Larsson.
-A grammar formalism for specifying ISU-based dialogue systems.
-In B. Nordström and A. Ranta (eds),
-<I>Advances in Natural Language Processing (GoTAL 2008)</I>,
-LNCS/LNAI 5221, Springer,
-2008.
-<A HREF="http://www.ling.gu.se/~peb/pubs/LjunglofLarsson-2008a.pdf">pdf</A>
-<br>
-<I>Explains how GoDiS dialogue systems are specified by GF grammars.</I>
-</P>
-<P>
-K. Angelov.
-Type-Theoretical Bulgarian Grammar.
-In B. Nordström and A. Ranta (eds),
-<I>Advances in Natural Language Processing (GoTAL 2008)</I>,
-LNCS/LNAI 5221, Springer,
-2008.
-<br>
-<I>Explains the implementation of a Bulgarian resource grammar in GF.</I>
-</P>
-<P>
-B. Bringert.
-High-precision Domain-specific Interlingua-based Speech Translation
-with Grammatical Framework.
-<I>Coling 2008 Workshop on Speech Translation for Medical and Other Safety-Critical Applications</I>,
-Manchester, UK, August 23,
-2008.
-<br>
-<I>Shows how to build spoken language translators based on GF grammars and their compilation to Nuance.</I>
-</P>
-<P>
-A. Ranta.
-How predictable is Finnish morphology? An experiment on lexicon construction.
-In J. Nivre, M. Dahllöf and B. Megyesi (eds),
-<I>Resourceful Language Technology: Festschrift in Honor of Anna Sågvall Hein</I>,
-University of Uppsala,
-2008.
-Available from <A HREF="http://publications.uu.se/abstract.xsql?dbid=8933">series homepage</A>
-<br>
-<I>Presents an experiment on smart paradigms in Finnish.</I>
-</P>
-<P>
-A. Ranta.
-Example-based grammar writing.
-To appear in L. Borin and S. Larsson (eds),
-Festschrift for Robin Cooper,
-2007.
-<br>
-<I>Presents and discusses the ideas of grammar composition and example-based grammar writing.</I>
-</P>
-<P>
-B. Bringert.
-Rapid Development of Dialogue Systems by Grammar Compilation.
-<I>8th SIGdial Workshop on Discourse and Dialogue</I>,
-Antwerp, Belgium, September 1-2,
-2007.
-<A HREF="http://www.cse.chalmers.se/~bringert/publ/gf-voicexml/gf-voicexml.pdf">pdf</A>
-<br>
-<I>Shows how to build a web-based spoken dialogue system by generating VoiceXML and JavaScript.</I>
-</P>
-<P>
-A. El Dada and A. Ranta.
-Implementing an Open Source Arabic Resource Grammar in GF.
-In M. Mughazy (ed),
-<I>Perspectives on Arabic Linguistics XX. Papers from the Twentieth Annual Symposium on Arabic Linguistics, Kalamazoo, March 26</I>
-John Benjamins Publishing Company.
-2007.
-<br>
-<I>An outline of the Arabic resource grammar project, focusing on linguistic aspects.</I>
-</P>
-<P>
-A. El Dada.
-Implementation of the Arabic Numerals and their Syntax in GF.
-Computational Approaches to Semitic Languages: Common Issues and Resources,
- ACL-2007 Workshop,
-June 28, 2007, Prague.
-2007.
-<br>
-<I>A case study with the resource grammar, focusing on the morphosyntax</I>
-<I>and agreement of constructions with numerals.</I>
-</P>
-<P>
-A. Ranta.
-Modular Grammar Engineering in GF.
-<I>Research on Language and Computation</I>,
-5:133-158, 2007.
-Draft available as <A HREF="http://www.cse.chalmers.se/~aarne/articles/multieng3.pdf">pdf</A>.
-<br>
-<I>Adapts library-based software engineering methods to grammar writing</I>
-<I>and introduces the module system of GF.</I>
-</P>
-<P>
-A. Ranta.
-The GF Grammar Compiler.
-<I>Workshop on New Directions in Type-theoretic Grammars</I>,
-Dublin, August 2007 (ESSLLI workshop).
-2007.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/ar-compiler.pdf">pdf</A>
-<br>
-<I>Describes the compilation of GF source code to lower-level run-time formats.</I>
-</P>
-<P>
-M. Humayoun, H. Hammarström, and A. Ranta.
-Urdu Morphology, Orthography and Lexicon Extraction.
-<I>CAASL-2: The Second Workshop on Computational Approaches to Arabic Script-based Languages</I>,
-July 21-22, 2007, LSA 2007 Linguistic Institute, Stanford University.
-2007.
-<br>
-<I>Fairly complete open-source Urdu morphology and elemenraty syntax in GF.</I>
-</P>
-<P>
-N. Perera and A. Ranta.
-Dialogue System Localization with the GF Resource Grammar Library.
-<I>SPEECHGRAM 2007: ACL Workshop on Grammar-Based Approaches to Spoken Language Processing</I>,
-June 29, 2007, Prague.
-2007.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/perera-ranta.pdf">pdf</A>
-<br>
-<I>An experiment in porting an in-car dialogue system from two to six languages.</I>
-</P>
-<P>
-B. Bringert.
-Speech Recognition Grammar Compilation in Grammatical Framework
-<I>SPEECHGRAM 2007: ACL Workshop on Grammar-Based Approaches to Spoken Language Processing</I>,
-June 29, 2007, Prague.
-2007.
-<br>
-<I>Generation of speech recognition language models from GF in several formats:</I>
-<I>GSL (Nuance), SRGS, JSGF, and HTK SLF, with embedded semantic interpretation.</I>
-</P>
-<P>
-A. Ranta.
-Features in Abstract and Concrete Syntax.
-<I>The 2nd International Workshop on Typed Feature Structure Grammars</I>,
-Tartu, 24 May 2007 (NODALIDA workshop).
-2007.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/ranta-tfsg2007.pdf">pdf</A>
-<br>
-<I>Explores the design choices of incorporating features in a GF-like grammar,</I>
-<I>with comparisons to feature-based unification grammars.</I>
-</P>
-<P>
-O. Caprotti and M. Seppälä.
-Multilingual Delivery of Online Tests in mathematics.
-Proceedings of Online Educa Berlin 2006. 29 November - 1 December 2006.
- Berlin, Germany.
-2006.
-<A HREF="http://webalt.math.helsinki.fi/content/e16/e301/e785/MultilingualDeliveryofOnlineTestsinMathematics_eng.pdf">pdf</A>
-<br>
-<I>This papers shows screenshots of multilingual generation in the</I>
-<I>WebALT project, using GF and the resource grammar library.</I>
-</P>
-<P>
-J. Khegai.
-Language engineering in Grammatical Framework (GF).
-Phd thesis, Computer Science, Chalmers University of Technology,
-2006.
-<A HREF="http://www.cse.chalmers.se/~janna/Janna_Khegai_phd.pdf">pdf</A>
-<br>
-<I>Collection of articles and technical reports on multilingual authoring</I>
-<I>and the Russian resource grammar.</I>
-</P>
-<P>
-B. Bringert and A. Ranta.
-A Pattern for Almost Compositional Functions.
-<I>ICFP 2006, The 11th ACM SIGPLAN International Conference on Functional Programming, Portland, Oregon, September 18-20, 2006</I>,
-2006.
-<A HREF="http://www.cse.chalmers.se/~bringert/publ/composOp/composOp.pdf">pdf</A>.
-<br>
-<I>A method of generic programming useful for compiler construction</I>
-<I>and transfer-based translation.</I>
-</P>
-<P>
-M. Forsberg, H. Hammarstrom, and A. Ranta.
-Morphological Lexicon Extraction from Raw Text Data.
-<I>FinTAL 2006</I>,
-Turku, August 23-25, 2006.
-Springer LNCS/LNAI 4139,
-pp. 488-499,
-2006.
-<br>
-<I>A method for automatical production of morphological lexica based</I>
-<I>on inflection engines such as those of GF resource grammar library.</I>
-</P>
-<P>
-A. Ranta.
-Type Theory and Universal Grammar.
-<I>Philosophia Scientiae, Constructivism: Mathematics, Logic, Philosophy and Linguistics</I>,
-cahier spécial 6,
-pp. 115-131,
-2006.
-<br>
-<I>A philosophical study of the medieval thesis that</I>
-<I>grammar is the same in all languages and the difference is only in words.</I>
-</P>
-<P>
-J. Khegai.
-GF parallel resource grammars and Russian.
-In proceedings of ACL2006
- (The joint conference of the International Committee on Computational
- Linguistics and the Association for Computational Linguistics) (pp. 475-482),
- Sydney, Australia, July 2006.
-<br>
-<I>Gives an outline of the Russian resource grammar project.</I>
-</P>
-<P>
-J. Khegai.
-Grammatical Framework (GF) for MT in sublanguage domains.
-Proceedings of 11th Annual conference of the European Association for
- Machine Translation, , Oslo.
-pp. 95-104,
-2005.
-<br>
-<I>Shows how GF is used in controlled language translation.</I>
-</P>
-<P>
-W. Ng'ang'a.
-Multilingual content development for eLearning in Africa.
-eLearning Africa: 1st Pan-African Conference on ICT for Development,
- Education and Training. 24-26 May 2006, Addis Ababa, Ethiopia.
-2006.
-<A HREF="http://webalt.math.helsinki.fi/content/e16/e301/e583/MultilingualContentDevelopmentforeLearninginAfrica-final1_eng.pdf">pdf</A>
-<br>
-<I>Presents a programme for producing educational material in African languages</I>
-<I>via multilingual generation in GF.</I>
-</P>
-<P>
-R. Jonson.
-Generating statistical language models from interpretation grammars in dialogue system.
-In Proceedings of EACL'06, Trento, Italy.
-2006.
-<br>
-<I>Uses GF grammars to generate statistical language models for speech recognition.</I>
-</P>
-<P>
-A. El Dada and A. Ranta.
-Arabic Resource Grammar.
-<I>Arabic Language Processing (JETALA)</I>,
-5-6 June 2006, IERA, Rabat, Morocco,
-2006.
-<br>
-<I>An outline of the Arabic resource grammar project, focusing on software aspects.</I>
-</P>
-<P>
-D. A. Burke and K. Johannisson.
-Translating Formal Software Specifications to Natural Language. A Grammar-Based Approach.
-In P. Blache, E. Stabler, J. Busquets and R. Moot (eds),
-Logical Aspects of Computational Linguistics (LACL 2005),
-Springer LNAI 3402,
-pp. 51-66,
-2005.
-<br>
-<I>A paper explaining how a multilingual GF grammar is completed with</I>
-<I>Natural Language Generation techniques to improve text quality.</I>
-</P>
-<P>
-B. Bringert, R. Cooper, P. Ljunglöf, A. Ranta,
-Multimodal Dialogue System Grammars.
-<I>Proceedings of DIALOR'05, Ninth Workshop on the Semantics and Pragmatics of Dialogue, Nancy, France, June 9-11, 2005</I>,
-2005.
-<A HREF="http://www.cse.chalmers.se/~bringert/publ/mm-grammars-dialor/mm-grammars-dialor.pdf">pdf</A>.
-<br>
-<I>Shows how mouse clicks can be integrated in GF grammars</I>
-<I>alongside with speech input.</I>
-</P>
-<P>
-K. Johannisson,
-Formal and Informal Software Specifications.
-PhD thesis,
-Computer Science, Göteborg University,
-2005.
-[<A HREF="http://www.cse.chalmers.se/~krijo/thesis/thesisA4.pdf">http://www.cse.chalmers.se/~krijo/thesis/thesisA4.pdf</A>]
-<br>
-<I>Collection of articles in the GF-KeY project, with an introduction.</I>
-</P>
-<P>
-P. Ljunglöf.
-Expressivity and Complexity of the Grammatical Framework.
-PhD thesis, Computer Science,
-Göteborg University,
-2004.
-<A HREF="http://www.cse.chalmers.se/~peb/pubs/Ljunglof-2004a.pdf">pdf</A>
-<br>
-<I>Language-theoretical study of GF and its parsing problem.</I>
-</P>
-<P>
-A. Ranta.
-Grammatical Framework: A Type-Theoretical Grammar Formalism.
-<I>Journal of Functional Programming</I>, 14(2),
-pp. 145-189,
-2004.
-Draft available as <A HREF="http://www.cse.chalmers.se/~aarne/articles/gf-jfp.ps.gz">ps.gz</A>.
-<br>
-<I>Theoretical paper explaining the GF formalism and its implementation.</I>
-<I>The standard reference on GF, but doesn't cover the module system.</I>
-</P>
-<P>
-A. Ranta.
-Computational semantics in type theory.
-<I>Mathematics and Social Sciences</I>, 165,
-pp. 31-57,
-2004.
-Draft available as <A HREF="http://www.cse.chalmers.se/~aarne/articles/3formsem.pdf">pdf</A>.
-<br>
-// Shows how Montague-style grammars are implemented in GF and extends//
-<I>this to type-theoretical grammars for anaphoric expressions.</I>
-</P>
-<P>
-H. Hammarström and A. Ranta.
-Cardinal Numerals Revisited in GF.
-<I>Workshop on Numerals in the World's Languages</I>.
-Dept. of Linguistics Max Planck Institute for Evolutionary Anthropology, Leipzig,
-2004.
-<br>
-<I>An overview of the numeral grammar project, covering 88 languages.</I>
-</P>
-<P>
-A. Ranta.
-Grammatical Framework Tutorial.
-In A. Beckmann and N. Preining, editors,
-<I>ESSLLI 2003 Course Material I</I>,
-<I>Collegium Logicum</I>,
-volume V,
-pp. 1-86.
-Kurt Gödel Society,
-Vienna,
-2004.
-<br>
-<I>A revised version of the on-line GF tutorial, v1.0.</I>
-</P>
-<P>
-J. Khegai and A. Ranta.
-Building and Using a Russian Resource Grammar in GF.
-In A. Gelbukh (ed),
-<I>Intelligent Text Processing and Computational Linguistics (CICLing-2004)</I>,
-Seoul, Korea, February 2003,
-Springer LNCS 945,
-pp. 38-41,
-2004.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/mexico.ps.gz">ps.gz</A>.
-<br>
-<I>An introduction to the GF resource grammar project, with Russian as prime example.</I>
-</P>
-<P>
-A. Ranta and R. Cooper.
-Dialogue Systems as Proof Editors.
- <I>Journal of Logic, Language and Information</I>, 13,
-pp. 225-240,
-2004.
-Conference version (IJCAR/ICoS-3, Siena, June 2001) available as
- <A HREF="http://www.cse.chalmers.se/~aarne/articles/dialogue3.ps.gz">ps.gz</A>.
-<I>Shows a close analogy between task-oriented dialogue systems</I>
-<I>and metavariable-based proof editors.</I>
-</P>
-<P>
-J. Khegai and A. Ranta.
-Building and Using a Russian Resource Grammar in GF.
-In A. Gelbukh (ed),
-<I>Intelligent Text Processing and Computational Linguistics (CICLing-2004)</I>,
-Seoul, Korea, February 2003,
-Springer LNCS 945,
-pp. 38-41,
-2004.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/mexico.ps.gz">ps.gz</A>.
-<br>
-<I>Explains how the GF GUI is used in syntax editing and discusses</I>
-<I>how new grammars are created.</I>
-</P>
-<P>
-R. Hähnle, K. Johannisson, and A. Ranta.
-An Authoring Tool for Informal and Formal Requirements Specifications.
-In R. D. Kutsche and H. Weber (eds),
-<I>ETAPS/FASE-2002: Fundamental Approaches to Software Engineering</I>,
-Springer LNCS,
-vol. 2306,
-pp. 233--248,
-2002.
-<A HREF="http://www.cse.chalmers.se/~krijo/GF/FASE.pdf">pdf</A>
-<br>
-<I>Describes a GF-based authoring tool for object-oriented</I>
-<I>specifications in OCL and English. Carries out in full</I>
-<I>the work proposed in the position paper (Hähnle &amp; Ranta 2001).</I>
-</P>
-<P>
-K. Johannisson and A.Ranta,
-Formal Verification of Multilingual Instructions.
-<I>Proceedings of the Joint Winter Meeting 2001</I>.
-Departments of Computer Science and Computer Engineering,
-Chalmers University of Technology and Göteborg University.
-2001.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/aarne+krijo.ps.gz">ps.gz</A>.
-<br>
-<I>Instructions for an alarm system in four languages, verified in the proof editor Alfa.</I>
-</P>
-<P>
-R. Hähnle and A. Ranta,
-Connecting OCL with the Rest of the World.
-<I>ETAPS 2001 Workshop on Transformations in UML (WTUML)</I>,
-Genova,
-2001.
-<A HREF="http://www.cse.chalmers.se/~reiner/papers/wtuml.ps.gz">ps.gz</A>.
-<br>
-<I>A position paper explaining how GF can be used to help in object-oriented</I>
-<I>modelling, with some examples on natural-language interaction with</I>
-<I>OCL (Object Constraint Language)</I>.
-</P>
-<P>
-T. Hallgren, "The Correctness of Insertion Sort",
-Manuscript, Chalmers University, Göteborg, 2001.
-Available in
-<A HREF="http://www.cse.chalmers.se/~hallgren/Papers/insertion_sort.ps">ps</A>
-<br>
-<I>A seven-page text generated by GF-Alfa</I>.
-</P>
-<P>
-A. Ranta. "Bescherelle bricolé",
-<A HREF="../../GF2.0/doc/BeschBric.ps.gz">ps.gz</A>,
-2001.
-<br>
-<I>A machine-generated book on French conjugation implemented in GF.</I>
-</P>
-<P>
-T. Hallgren and A. Ranta,
-An Extensible Proof Text Editor.
-In M. Parigot and A. Voronkov (eds),
-<I>Logic for Programming and Automated Reasoning (LPAR'2000)</I>,
-LNCS/LNAI 1955,
-pp. 70-84,
-Springer Verlag, Heidelberg,
-2000.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/lpar2000.ps.gz">ps.gz</A>.
-<br>
-<I>Describes an interface to the proof editor Alfa written in GF</I>.
-</P>
-<P>
-M. Dymetman, V. Lux, and A. Ranta,
-XML and multilingual document authoring: converging trends.
-<I>Proceedings of the The 18th International Conference on Computational Linguistics (COLING 2000)</I>,
-pp. 243-249,
-Saarbruecken,
-2000.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/coling2000.ps.gz">ps.gz</A>.
-<br>
-<I>Relates GF not only with XML but also with definite clause grammars</I>.
-</P>
-<P>
-P. Mäenpää and A. Ranta.
-The type theory and type checker of GF.
-<I>Colloquium on Principles, Logics, and Implementations of High-Level Programming Languages, Workshop on Logical Frameworks and Meta-languages, Paris, 28 September 1999</I>.
-1999.
-<A HREF="href=http://www.cse.chalmers.se/~aarne/papers/lfm1999.ps.gz">ps.gz</A>.
-<br>
-<I>Concise theoretical presentation of GF, using the old notation prior to v0.9</I>.
-</P>
-
-<A NAME="toc2"></A>
-<H2>Background for GF</H2>
-
-<P>
-In alphabetical order:
-</P>
-<P>
-L. Magnusson.
-<I>The Implementation of ALF - a Proof Editor based on Martin-Löf's</I>
-<I>Monomorphic Type Theory with Explicit Substitutions</I>.
-PhD Thesis, Department of Computing Science,
-Chalmers University of Technology and Göteborg University,
-1994.
-<br>
-<I>Back in 1992 the most wonderful program in the world, ALF is</I>
-<I>a model that GF directly follows: GF is Yet ALF.</I>
-</P>
-<P>
-P. Martin-Löf.
-<I>Intuitionistic Type Theory</I>.
-Bibliopolis, Naples, 1984.
-<br>
-<I>A very accessible book (if you have access to it!) on type theory directly from the source.</I>
-</P>
-<P>
-B. Nordström, K. Petersson, and J. Smith.
-<I>Programming in Martin-Löf's Type Theory: an Introduction</I>.
-Oxford University Press, 1990.
- The book is out of print, but a free version can be picked up from
-<A HREF="http://www.cse.chalmers.se/Cs/Research/Logic/book/">www.cse.chalmers.se/Cs/Research/Logic/book/</A>
-<br>
-<I>Standard reference on the subject</I>.
-</P>
-<P>
-A. Ranta.
-<I>Type Theoretical Grammar</I>.
-Oxford University Press, Oxford,
-1994.
-<br>
-<I>Monograph on type theory in linguistics. Includes an introduction</I>
-<I>to type theory. Focused on semantics, in particular anaphora. A first,</I>
-<I>very rudimentary implementation of linearization in the proof system ALF.</I>
-</P>
-<P>
-A. Ranta.
-Syntactic categories in the language of mathematics.
-In P. Dybjer, B. Nordström, and J. Smith, eds.,
-<I>Types for Proofs and Programs</I>,
-pp. 162-182,
-Lecture Notes in Computer Science
-996,
-Springer-Verlag,
-Heidelberg,
-1995.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/baastad.ps.gz">ps.gz</A>
-<br>
-<I>Predecessor of GF: grammar defined in type theory and implemented in ALF</I>.
-</P>
-<P>
-A. Ranta.
-Context-relative syntactic categories and the formalization of mathematical text.
-In S. Berardi and M. Coppo, eds.,
-<I>Types for Proofs and Programs</I>,
-pp. 231-248,
-Lecture Notes in Computer Science
-1158,
-Springer-Verlag,
-Heidelberg,
-1996.
-<A HREF="http://www.cse.chalmers.se/~aarne/articles/torino.ps.gz">ps.gz</A>.
-<br>
-<I>Extending the theory of the previous paper. The implementation in ALF</I>
-<I>eventually became so heavy that the need arose for GF.</I>
-</P>
-<P>
-A. Ranta.
-Structures grammaticales dans le français mathématique.
-<I>Mathématiques, informatique et Sciences Humaines.</I>,
-vol. 138 pp. 5-56 and 139 pp. 5-36,
-1997.
-<br>
-<I>A rather comprehensive French grammar presented in a type-theoretical style.</I>
-</P>
-<P>
-A. Ranta.
- Syntactic calculus with dependent types.
- <I>Journal of Logic, Language and Information</I>, vol. 4,
- pp. 413-431, 1998.
-<br>
-<I>Interprets Lambek Calculus in type theory and defines some extensions</I>.
-</P>
-
-<!-- html code generated by txt2tags 2.6 (http://txt2tags.org) -->
-<!-- cmdline: txt2tags -thtml ./doc/gf-bibliography.t2t -->
-</BODY></HTML>
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-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<HTML>
-<HEAD>
-<META NAME="generator" CONTENT="http://txt2tags.org">
-<LINK REL="stylesheet" TYPE="text/css" HREF="../css/style.css">
-<meta name = "viewport" content = "width = device-width"><TITLE>GF Quick Reference</TITLE>
-</HEAD><BODY BGCOLOR="white" TEXT="black">
-<CENTER>
-<H1><a href="../"><IMG src="../doc/Logos/gf0.png"></a>GF Quick Reference</H1>
-<FONT SIZE="4"><I>Aarne Ranta</I></FONT><BR>
-<FONT SIZE="4">April 4, 2006</FONT>
-</CENTER>
-
-<P></P>
-<HR NOSHADE SIZE=1>
-<P></P>
-
- <UL>
- <LI><A HREF="#toc1">A complete example</A>
- <LI><A HREF="#toc2">Modules and files</A>
- <LI><A HREF="#toc3">Judgements</A>
- <LI><A HREF="#toc4">Types</A>
- <LI><A HREF="#toc5">Expressions</A>
- <LI><A HREF="#toc6">Pattern matching</A>
- <LI><A HREF="#toc7">Sample library functions</A>
- <LI><A HREF="#toc8">Flags</A>
- <LI><A HREF="#toc9">File paths</A>
- <LI><A HREF="#toc10">Alternative grammar formats</A>
- <LI><A HREF="#toc11">References</A>
- </UL>
-
-<P></P>
-<HR NOSHADE SIZE=1>
-<P></P>
-<P>
-This is a quick reference on GF grammars. It aims to
-cover all forms of expression available when writing
-grammars. It assumes basic knowledge of GF, which
-can be acquired from the
-<A HREF="http://www.grammaticalframework.org/doc/tutorial/gf-tutorial.html">GF Tutorial</A>.
-Help on GF commands is obtained on line by the
-help command (<CODE>help</CODE>), and help on invoking
-GF with (<CODE>gf -help</CODE>).
-</P>
-
-<A NAME="toc1"></A>
-<H3>A complete example</H3>
-
-<P>
-This is a complete example of a GF grammar divided
-into three modules in files. The grammar recognizes the
-phrases <I>one pizza</I> and <I>two pizzas</I>.
-</P>
-<P>
-File <CODE>Order.gf</CODE>:
-</P>
-
-<PRE>
- abstract Order = {
- cat
- Order ;
- Item ;
- fun
- One, Two : Item -&gt; Order ;
- Pizza : Item ;
- }
-</PRE>
-
-<P>
-File <CODE>OrderEng.gf</CODE> (the top file):
-</P>
-
-<PRE>
- --# -path=.:prelude
- concrete OrderEng of Order =
- open Res, Prelude in {
- flags startcat=Order ;
- lincat
- Order = SS ;
- Item = {s : Num =&gt; Str} ;
- lin
- One it = ss ("one" ++ it.s ! Sg) ;
- Two it = ss ("two" ++ it.s ! Pl) ;
- Pizza = regNoun "pizza" ;
- }
-</PRE>
-
-<P>
-File <CODE>Res.gf</CODE>:
-</P>
-
-<PRE>
- resource Res = open Prelude in {
- param Num = Sg | Pl ;
- oper regNoun : Str -&gt; {s : Num =&gt; Str} =
- \dog -&gt; {s = table {
- Sg =&gt; dog ;
- _ =&gt; dog + "s"
- }
- } ;
- }
-</PRE>
-
-<P>
-To use this example, do
-</P>
-
-<PRE>
- % gf -- in shell: start GF
- &gt; i OrderEng.gf -- in GF: import grammar
- &gt; p "one pizza" -- parse string
- &gt; l Two Pizza -- linearize tree
-</PRE>
-
-<A NAME="toc2"></A>
-<H3>Modules and files</H3>
-
-<P>
-One module per file.
-File named <CODE>Foo.gf</CODE> contains module named
-<CODE>Foo</CODE>.
-</P>
-<P>
-Each module has the structure
-</P>
-
-<PRE>
- moduletypename =
- Inherits ** -- optional
- open Opens in -- optional
- { Judgements }
-</PRE>
-
-<P>
-Inherits are names of modules of the same type.
-Inheritance can be restricted:
-</P>
-
-<PRE>
- Mo[f,g], -- inherit only f,g from Mo
- Lo-[f,g] -- inheris all but f,g from Lo
-</PRE>
-
-<P>
-Opens are possible in <CODE>concrete</CODE> and <CODE>resource</CODE>.
-They are names of modules of these two types, possibly
-qualified:
-</P>
-
-<PRE>
- (M = Mo), -- refer to f as M.f or Mo.f
- (Lo = Lo) -- refer to f as Lo.f
-</PRE>
-
-<P>
-Module types and judgements in them:
-</P>
-
-<PRE>
- abstract A -- cat, fun, def, data
- concrete C of A -- lincat, lin, lindef, printname
- resource R -- param, oper
-
- interface I -- like resource, but can have
- oper f : T without definition
- instance J of I -- like resource, defines opers
- that I leaves undefined
- incomplete -- functor: concrete that opens
- concrete CI of A = one or more interfaces
- open I in ...
- concrete CJ of A = -- completion: concrete that
- CI with instantiates a functor by
- (I = J) instances of open interfaces
-</PRE>
-
-<P>
-The forms
-<CODE>param</CODE>, <CODE>oper</CODE>
-may appear in <CODE>concrete</CODE> as well, but are then
-not inherited to extensions.
-</P>
-<P>
-All modules can moreover have <CODE>flags</CODE> and comments.
-Comments have the forms
-</P>
-
-<PRE>
- -- till the end of line
- {- any number of lines between -}
- --# used for compiler pragmas
-</PRE>
-
-<P>
-A <CODE>concrete</CODE> can be opened like a <CODE>resource</CODE>.
-It is translated as follows:
-</P>
-
-<PRE>
- cat C ---&gt; oper C : Type =
- lincat C = T T ** {lock_C : {}}
-
- fun f : G -&gt; C ---&gt; oper f : A* -&gt; C* = \g -&gt;
- lin f = t t g ** {lock_C = &lt;&gt;}
-</PRE>
-
-<P>
-An <CODE>abstract</CODE> can be opened like an <CODE>interface</CODE>.
-Any <CODE>concrete</CODE> of it then works as an <CODE>instance</CODE>.
-</P>
-
-<A NAME="toc3"></A>
-<H3>Judgements</H3>
-
-<PRE>
- cat C -- declare category C
- cat C (x:A)(y:B x) -- dependent category C
- cat C A B -- same as C (x : A)(y : B)
- fun f : T -- declare function f of type T
- def f = t -- define f as t
- def f p q = t -- define f by pattern matching
- data C = f | g -- set f,g as constructors of C
- data f : A -&gt; C -- same as
- fun f : A -&gt; C; data C=f
-
- lincat C = T -- define lin.type of cat C
- lin f = t -- define lin. of fun f
- lin f x y = t -- same as lin f = \x y -&gt; t
- lindef C = \s -&gt; t -- default lin. of cat C
- printname fun f = s -- printname shown in menus
- printname cat C = s -- printname shown in menus
- printname f = s -- same as printname fun f = s
-
- param P = C | D Q R -- define parameter type P
- with constructors
- C : P, D : Q -&gt; R -&gt; P
- oper h : T = t -- define oper h of type T
- oper h = t -- omit type, if inferrable
-
- flags p=v -- set value of flag p
-</PRE>
-
-<P>
-Judgements are terminated by semicolons (<CODE>;</CODE>).
-Subsequent judgments of the same form may share the
-keyword:
-</P>
-
-<PRE>
- cat C ; D ; -- same as cat C ; cat D ;
-</PRE>
-
-<P>
-Judgements can also share RHS:
-</P>
-
-<PRE>
- fun f,g : A -- same as fun f : A ; g : A
-</PRE>
-
-<A NAME="toc4"></A>
-<H3>Types</H3>
-
-<P>
-Abstract syntax (in <CODE>fun</CODE>):
-</P>
-
-<PRE>
- C -- basic type, if cat C
- C a b -- basic type for dep. category
- (x : A) -&gt; B -- dep. functions from A to B
- (_ : A) -&gt; B -- nondep. functions from A to B
- (p,q : A) -&gt; B -- same as (p : A)-&gt; (q : A) -&gt; B
- A -&gt; B -- same as (_ : A) -&gt; B
- Int -- predefined integer type
- Float -- predefined float type
- String -- predefined string type
-</PRE>
-
-<P>
-Concrete syntax (in <CODE>lincat</CODE>):
-</P>
-
-<PRE>
- Str -- token lists
- P -- parameter type, if param P
- P =&gt; B -- table type, if P param. type
- {s : Str ; p : P}-- record type
- {s,t : Str} -- same as {s : Str ; t : Str}
- {a : A} **{b : B}-- record type extension, same as
- {a : A ; b : B}
- A * B * C -- tuple type, same as
- {p1 : A ; p2 : B ; p3 : C}
- Ints n -- type of n first integers
-</PRE>
-
-<P>
-Resource (in <CODE>oper</CODE>): all those of concrete, plus
-</P>
-
-<PRE>
- Tok -- tokens (subtype of Str)
- A -&gt; B -- functions from A to B
- Int -- integers
- Strs -- list of prefixes (for pre)
- PType -- parameter type
- Type -- any type
-</PRE>
-
-<P>
-As parameter types, one can use any finite type:
-<CODE>P</CODE> defined in <CODE>param P</CODE>,
-<CODE>Ints n</CODE>, and record types of parameter types.
-</P>
-
-<A NAME="toc5"></A>
-<H3>Expressions</H3>
-
-<P>
-Syntax trees = full function applications
-</P>
-
-<PRE>
- f a b -- : C if fun f : A -&gt; B -&gt; C
- 1977 -- : Int
- 3.14 -- : Float
- "foo" -- : String
-</PRE>
-
-<P>
-Higher-Order Abstract syntax (HOAS): functions as arguments:
-</P>
-
-<PRE>
- F a (\x -&gt; c) -- : C if a : A, c : C (x : B),
- fun F : A -&gt; (B -&gt; C) -&gt; C
-</PRE>
-
-<P>
-Tokens and token lists
-</P>
-
-<PRE>
- "hello" -- : Tok, singleton Str
- "hello" ++ "world" -- : Str
- ["hello world"] -- : Str, same as "hello" ++ "world"
- "hello" + "world" -- : Tok, computes to "helloworld"
- [] -- : Str, empty list
-</PRE>
-
-<P>
-Parameters
-</P>
-
-<PRE>
- Sg -- atomic constructor
- VPres Sg P2 -- applied constructor
- {n = Sg ; p = P3} -- record of parameters
-</PRE>
-
-<P>
-Tables
-</P>
-
-<PRE>
- table { -- by full branches
- Sg =&gt; "mouse" ;
- Pl =&gt; "mice"
- }
- table { -- by pattern matching
- Pl =&gt; "mice" ;
- _ =&gt; "mouse" -- wildcard pattern
- }
- table {
- n =&gt; regn n "cat" -- variable pattern
- }
- table Num {...} -- table given with arg. type
- table ["ox"; "oxen"] -- table as course of values
- \\_ =&gt; "fish" -- same as table {_ =&gt; "fish"}
- \\p,q =&gt; t -- same as \\p =&gt; \\q =&gt; t
-
- t ! p -- select p from table t
- case e of {...} -- same as table {...} ! e
-</PRE>
-
-<P>
-Records
-</P>
-
-<PRE>
- {s = "Liz"; g = Fem} -- record in full form
- {s,t = "et"} -- same as {s = "et";t= "et"}
- {s = "Liz"} ** -- record extension: same as
- {g = Fem} {s = "Liz" ; g = Fem}
-
- &lt;a,b,c&gt; -- tuple, same as {p1=a;p2=b;p3=c}
-</PRE>
-
-<P>
-Functions
-</P>
-
-<PRE>
- \x -&gt; t -- lambda abstract
- \x,y -&gt; t -- same as \x -&gt; \y -&gt; t
- \x,_ -&gt; t -- binding not in t
-</PRE>
-
-<P>
-Local definitions
-</P>
-
-<PRE>
- let x : A = d in t -- let definition
- let x = d in t -- let defin, type inferred
- let x=d ; y=e in t -- same as
- let x=d in let y=e in t
- let {...} in t -- same as let ... in t
-
- t where {...} -- same as let ... in t
-</PRE>
-
-<P>
-Free variation
-</P>
-
-<PRE>
- variants {x ; y} -- both x and y possible
- variants {} -- nothing possible
-</PRE>
-
-<P>
-Prefix-dependent choices
-</P>
-
-<PRE>
- pre {"a" ; "an" / v} -- "an" before v, "a" otherw.
- strs {"a" ; "i" ;"o"}-- list of condition prefixes
-</PRE>
-
-<P>
-Typed expression
-</P>
-
-<PRE>
- &lt;t:T&gt; -- same as t, to help type inference
-</PRE>
-
-<P>
-Accessing bound variables in <CODE>lin</CODE>: use fields <CODE>$1, $2, $3,...</CODE>.
-Example:
-</P>
-
-<PRE>
- fun F : (A : Set) -&gt; (El A -&gt; Prop) -&gt; Prop ;
- lin F A B = {s = ["for all"] ++ A.s ++ B.$1 ++ B.s}
-</PRE>
-
-<A NAME="toc6"></A>
-<H3>Pattern matching</H3>
-
-<P>
-These patterns can be used in branches of <CODE>table</CODE> and
-<CODE>case</CODE> expressions. Patterns are matched in the order in
-which they appear in the grammar.
-</P>
-
-<PRE>
- C -- atomic param constructor
- C p q -- param constr. applied to patterns
- x -- variable, matches anything
- _ -- wildcard, matches anything
- "foo" -- string
- 56 -- integer
- {s = p ; y = q} -- record, matches extensions too
- &lt;p,q&gt; -- tuple, same as {p1=p ; p2=q}
- p | q -- disjunction, binds to first match
- x@p -- binds x to what p matches
- - p -- negation
- p + "s" -- sequence of two string patterns
- p* -- repetition of a string pattern
-</PRE>
-
-<A NAME="toc7"></A>
-<H3>Sample library functions</H3>
-
-<PRE>
- -- lib/prelude/Predef.gf
- drop : Int -&gt; Tok -&gt; Tok -- drop prefix of length
- take : Int -&gt; Tok -&gt; Tok -- take prefix of length
- tk : Int -&gt; Tok -&gt; Tok -- drop suffix of length
- dp : Int -&gt; Tok -&gt; Tok -- take suffix of length
- occur : Tok -&gt; Tok -&gt; PBool -- test if substring
- occurs : Tok -&gt; Tok -&gt; PBool -- test if any char occurs
- show : (P:Type) -&gt; P -&gt;Tok -- param to string
- read : (P:Type) -&gt; Tok-&gt; P -- string to param
- toStr : (L:Type) -&gt; L -&gt;Str -- find "first" string
-
- -- lib/prelude/Prelude.gf
- param Bool = True | False
- oper
- SS : Type -- the type {s : Str}
- ss : Str -&gt; SS -- construct SS
- cc2 : (_,_ : SS) -&gt; SS -- concat SS's
- optStr : Str -&gt; Str -- string or empty
- strOpt : Str -&gt; Str -- empty or string
- bothWays : Str -&gt; Str -&gt; Str -- X++Y or Y++X
- init : Tok -&gt; Tok -- all but last char
- last : Tok -&gt; Tok -- last char
- prefixSS : Str -&gt; SS -&gt; SS
- postfixSS : Str -&gt; SS -&gt; SS
- infixSS : Str -&gt; SS -&gt; SS -&gt; SS
- if_then_else : (A : Type) -&gt; Bool -&gt; A -&gt; A -&gt; A
- if_then_Str : Bool -&gt; Str -&gt; Str -&gt; Str
-</PRE>
-
-<A NAME="toc8"></A>
-<H3>Flags</H3>
-
-<P>
-Flags can appear, with growing priority,
-</P>
-
-<UL>
-<LI>in files, judgement <CODE>flags</CODE> and without dash (<CODE>-</CODE>)
-<LI>as flags to <CODE>gf</CODE> when invoked, with dash
-<LI>as flags to various GF commands, with dash
-</UL>
-
-<P>
-Some common flags used in grammars:
-</P>
-
-<PRE>
- startcat=cat use this category as default
-
- lexer=literals int and string literals recognized
- lexer=code like program code
- lexer=text like text: spacing, capitals
- lexer=textlit text, unknowns as string lits
-
- unlexer=code like program code
- unlexer=codelit code, remove string lit quotes
- unlexer=text like text: punctuation, capitals
- unlexer=textlit text, remove string lit quotes
- unlexer=concat remove all spaces
- unlexer=bind remove spaces around "&amp;+"
-
- optimize=all_subs best for almost any concrete
- optimize=values good for lexicon concrete
- optimize=all usually good for resource
- optimize=noexpand for resource, if =all too big
-</PRE>
-
-<P>
-For the full set of values for <CODE>FLAG</CODE>,
-use on-line <CODE>h -FLAG</CODE>.
-</P>
-
-<A NAME="toc9"></A>
-<H3>File paths</H3>
-
-<P>
-Colon-separated lists of directories searched in the
-given order:
-</P>
-
-<PRE>
- --# -path=.:../abstract:../common:prelude
-</PRE>
-
-<P>
-This can be (in order of growing preference), as
-first line in the top file, as flag to <CODE>gf</CODE>
-when invoked, or as flag to the <CODE>i</CODE> command.
-The prefix <CODE>--#</CODE> is used only in files.
-</P>
-<P>
-If the environment variabls <CODE>GF_LIB_PATH</CODE> is defined, its
-value is automatically prefixed to each directory to
-extend the original search path.
-</P>
-
-<A NAME="toc10"></A>
-<H3>Alternative grammar formats</H3>
-
-<P>
-<B>Old GF</B> (before GF 2.0):
-all judgements in any kinds of modules,
-division into files uses <CODE>include</CODE>s.
-A file <CODE>Foo.gf</CODE> is recognized as the old format
-if it lacks a module header.
-</P>
-<P>
-<B>Context-free</B> (file <CODE>foo.cf</CODE>). The form of rules is e.g.
-</P>
-
-<PRE>
- Fun. S ::= NP "is" AP ;
-</PRE>
-
-<P>
-If <CODE>Fun</CODE> is omitted, it is generated automatically.
-Rules must be one per line. The RHS can be empty.
-</P>
-<P>
-<B>Extended BNF</B> (file <CODE>foo.ebnf</CODE>). The form of rules is e.g.
-</P>
-
-<PRE>
- S ::= (NP+ ("is" | "was") AP | V NP*) ;
-</PRE>
-
-<P>
-where the RHS is a regular expression of categories
-and quoted tokens: <CODE>"foo", CAT, T U, T|U, T*, T+, T?</CODE>, or empty.
-Rule labels are generated automatically.
-</P>
-<P>
-<B>Probabilistic grammars</B> (not a separate format).
-You can set the probability of a function <CODE>f</CODE> (in its value category) by
-</P>
-
-<PRE>
- --# prob f 0.009
-</PRE>
-
-<P>
-These are put into a file given to GF using the <CODE>probs=File</CODE> flag
-on command line. This file can be the grammar file itself.
-</P>
-<P>
-<B>Example-based grammars</B> (file <CODE>foo.gfe</CODE>). Expressions of the form
-</P>
-
-<PRE>
- in Cat "example string"
-</PRE>
-
-<P>
-are preprocessed by using a parser given by the flag
-</P>
-
-<PRE>
- --# -resource=File
-</PRE>
-
-<P>
-and the result is written to <CODE>foo.gf</CODE>.
-</P>
-
-<A NAME="toc11"></A>
-<H3>References</H3>
-
-<P>
-<A HREF="http://www.grammaticalframework.org/">GF Homepage</A>
-</P>
-<P>
-A. Ranta, Grammatical Framework: A Type-Theoretical Grammar Formalism.
-<I>The Journal of Functional Programming</I>, vol. 14:2. 2004, pp. 145-189.
-</P>
-
-<!-- html code generated by txt2tags 2.6 (http://txt2tags.org) -->
-<!-- cmdline: txt2tags -thtml ./doc/gf-reference.t2t -->
-</BODY></HTML>
diff --git a/download/index-3.1.6.html b/download/index-3.1.6.html
deleted file mode 100644
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-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<HTML>
-<HEAD>
-<META NAME="generator" CONTENT="http://txt2tags.sf.net">
-<TITLE>Grammatical Framework Download and Installation</TITLE>
-</HEAD><BODY BGCOLOR="white" TEXT="black">
-<P ALIGN="center"><CENTER><H1>Grammatical Framework Download and Installation</H1>
-<FONT SIZE="4">
-<I>Version 3.1.6, 23 April 2010</I><BR>
-</FONT></CENTER>
-
-<H2>Latest developer code</H2>
-<P>
-<A HREF="../doc/darcs.html">GF darcs repository</A>
-</P>
-<H2>Latest release</H2>
-<P>
-GF 3.1.6 released 23 April 2010.
-</P>
-<UL>
-<LI>MacOS X installer package:
- <A HREF="gf-3.1.6-leopard.pkg"><CODE>gf-3.1.6-leopard.pkg</CODE></A> (7.7MB)
-<LI>MacOS X (gzipped executable, Leopard and Snow Leopard):
- <A HREF="gf-3.1.6-bin-intel-mac.gz"><CODE>gf-3.1.6-bin-intel-mac.gz</CODE></A> (1.9MB)
-<LI>Windows (zipped executable):
- <A HREF="gf-3.1.6-bin-i486-windows.zip"><CODE>gf-3.1.6-bin-i486-windows.zip</CODE></A>
- (1.6 MB)
-<LI>Ubuntu Linux (gzipped executable):
- <A HREF="gf-3.1.6-bin-i486-linux.gz"><CODE>gf-3.1.6-bin-i486-linux.gz</CODE></A>
- (1.7 MB)
-<LI>compiled library package:
- <A HREF="gf-3.1.6-lib.tar.gz"><CODE>gf-3.1.6-lib.tar.gz</CODE></A>
- (4.4 MB)
-<LI>full source package (GF system, libraries, examples, documentation):
- <A HREF="gf-3.1.6-src.tar.gz"><CODE>gf-3.1.6-src.tar.gz</CODE></A>
- (11 MB)
-<P></P>
-GF is also on <A HREF="http://hackage.haskell.org/package/gf">Hackage</A>
-</UL>
-
-<P>
-What's new? See the <A HREF="release-3.1.6.html">release notes</A>.
-</P>
-<H2>Previous releases</H2>
-<P>
-<A HREF="old-index.html">Follow this link</A>.
-</P>
-<H2>Installation instructions</H2>
-<P>
-The Windows package is installed by just unpacking it anywhere.
-It finds the libraries relative to the <CODE>.exe</CODE> file.
-</P>
-<P>
-To install a binary package for MacOS X or Linux: uncompress the executable and
-put it somewhere on your path, renaming it to just <CODE>gf</CODE>. For instance:
-</P>
-<PRE>
- gunzip gf-bin-[version].gz
- sudo mv gf-bin-[version] /usr/local/bin/gf
-</PRE>
-<P>
-To install the libraries (if done separately), unpack them in the place to which your
-<CODE>GF_LIB_PATH</CODE> points.
-</P>
-<PRE>
- cd $GF_LIB_PATH
- gtar xvfz gf-lib-[VERSION].tgz
-</PRE>
-<P>
-If this variable hasn't been defined, it is useful define it, e.g.
-</P>
-<PRE>
- export GF_LIB_PATH=/usr/local/lib/gf/
-</PRE>
-<P></P>
-<P>
-To compile and install from source on Mac or Linux, do:
-</P>
-<PRE>
- tar xvfz gf-[VERSION].tgz
- cd GF/src
- runghc Setup configure --user
- runghc Setup build
- runghc Setup install
-</PRE>
-<P>
-The last command must be prefixed by <CODE>sudo</CODE>, if the installation is outside
-user-writeable area.
-</P>
-
-<!-- html code generated by txt2tags 2.5 (http://txt2tags.sf.net) -->
-<!-- cmdline: txt2tags -thtml ./download/index-3.1.6.t2t -->
-</BODY></HTML>
diff --git a/download/release-3.1.6.html b/download/release-3.1.6.html
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-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<HTML>
-<HEAD>
-<META NAME="generator" CONTENT="http://txt2tags.sf.net">
-<TITLE>GF Version 3.1.6 Release Notes</TITLE>
-</HEAD><BODY BGCOLOR="white" TEXT="black">
-<P ALIGN="center"><CENTER><H1>GF Version 3.1.6 Release Notes</H1>
-<FONT SIZE="4">
-<I>23 April 2010</I><BR>
-</FONT></CENTER>
-
-<H1>Installation</H1>
-<P>
-The binaries now work out of the box for each platform and support
-completions (file names and parsing), because readline has been
-changed to haskeline.
-</P>
-<P>
-To compile from source, GHC 6.12 is now required. But GHC is not needed
-if the binary executables are used.
-</P>
-<P>
-Binaries (<CODE>.gfo</CODE> and <CODE>.pgf</CODE> files) compiled with GF 3.1 are incompatible
-with 3.1.6 and must either be removed; alternatively, the <CODE>-src</CODE> flag can be
-used when compiling.
-</P>
-<P>
-Notice the new place to send bug reports (see GF's welcome message)!
-</P>
-<H1>New features</H1>
-<P>
-Grammar language
-</P>
-<UL>
-<LI>improved support for dependent types (see <CODE>SUMO</CODE>, <CODE>nqueens</CODE> in <CODE>examples</CODE>)
-</UL>
-
-<P>
-Shell commands and options (see <CODE>help</CODE> in GF for more information)
-</P>
-<UL>
-<LI><CODE>eb</CODE>: example-based grammar file conversion
- (see <CODE>examples/animals/QuestionI.gf</CODE>)
-<LI><CODE>vd = visualize_dependency</CODE>: show dependency tree
-<LI><CODE>vp = visualize_parse</CODE>: show parse tree
-<LI><CODE>gr, gt, mq, tq</CODE>: use a seed tree with metavariables
-<LI><CODE>gr, p, tq</CODE>: use <CODE>-probs=FILE</CODE> to bias or rank generated trees
-<LI><CODE>gt</CODE> now tries the different alternatives in the order in which they appear in the source code
-<LI><CODE>dg</CODE>: hide modules when printing dependency graph
-<LI>-output-format=lambda_prolog let us to use Lambda Prolog for exhaustive generation with dependent types
-</UL>
-
-<P>
-Libraries
-</P>
-<UL>
-<LI>Urdu completed (Shafqat Virk)
-<LI>Turkish morphology + Zamberek's dictionary in GF (Server Cimen)
-</UL>
-
-<P>
-Examples
-</P>
-<UL>
-<LI>SUMO
-<LI>phrasebook
-<LI>nqueens
-</UL>
-
-<P>
-Internal
-</P>
-<UL>
-<LI>single PMCFG format for both linearization and parsing
-<LI>use of Haskeline for completion - more portable than Readline
-<LI>unicode support from Haskell 6.12 instead of home-made coding
-</UL>
-
-<H2>Issues</H2>
-<P>
-Javascript generation is not updated to the new PGF format.
-<A HREF="old-index.html">GF 3.1</A> should still be used for building Javascript applications.
-</P>
-
-<!-- html code generated by txt2tags 2.5 (http://txt2tags.sf.net) -->
-<!-- cmdline: txt2tags -thtml release-3.1.6.txt -->
-</BODY></HTML>
diff --git a/download/release-3.1.6.txt b/download/release-3.1.6.t2t
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diff --git a/gf-book/index.html b/gf-book/index.html
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--- a/gf-book/index.html
+++ /dev/null
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-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<HTML>
-<HEAD>
-<META NAME="generator" CONTENT="http://txt2tags.org">
-<META HTTP-EQUIV="Content-Type" CONTENT="text/html; charset=utf8">
-<LINK REL="stylesheet" TYPE="text/css" HREF="../css/style.css">
-<meta name = "viewport" content = "width = device-width"><TITLE>Grammatical Framework: Programming with Multilingual Grammars</TITLE>
-</HEAD><BODY BGCOLOR="white" TEXT="black">
-<CENTER>
-<H1>Grammatical Framework: Programming with Multilingual Grammars</H1>
-<FONT SIZE="4"><I>Aarne Ranta</I></FONT><BR>
-</CENTER>
-
-<P>
-<center><img style="width: 200px" src="gf-book-cover.png"></center>
-</P>
-<P>
-This is the web page of the book
-</P>
-
-<UL>
-<LI>Aarne Ranta,
- <I>Grammatical Framework: Programming with Multilingual Grammars</I>,
- CSLI Publications,
- Stanford,
- 2011,
- 340 pp,
- ISBN-10: 1-57586-626-9 (Paper), 1-57586-627-7 (Cloth).
-</UL>
-
-<H2>Publisher's information</H2>
-
-<P>
-Publisher's web page (look for "Series" -&gt; "CSLI Studies in Computational Linguistics")
-</P>
-<P>
- <A HREF="http://www-csli.stanford.edu/pubs/">http://www-csli.stanford.edu/pubs/</A>
-</P>
-
-<H2>Order</H2>
-
-<P>
-Direct order ($32.50 paperback, $70 hardcover):
-</P>
-<P>
- <A HREF="http://press.uchicago.edu/ucp/books/book/distributed/G/bo12469871.html">http://press.uchicago.edu/ucp/books/book/distributed/G/bo12469871.html</A>
-</P>
-<P>
-Amazon order USA ($32.50 paperback, $70 hardcover):
-</P>
-<P>
- <A HREF="http://www.amazon.com/Grammatical-Framework-Programming-Multilingual-Information/dp/1575866269/ref=sr_1_2?ie=UTF8&amp;qid=1308585697&amp;sr=8-2">http://www.amazon.com/Grammatical-Framework-Programming-Multilingual-Information/dp/1575866269/ref=sr_1_2?ie=UTF8&amp;qid=1308585697&amp;sr=8-2</A>
-</P>
-<P>
-Amazon order UK (£21 paperback, £45 hardcover):
-</P>
-<P>
- <A HREF="http://www.amazon.co.uk/Grammatical-Framework-Programming-Multilingual-Computational/dp/1575866269/ref=sr_1_6?ie=UTF8&amp;qid=1315580083&amp;sr=8-6">http://www.amazon.co.uk/Grammatical-Framework-Programming-Multilingual-Computational/dp/1575866269/ref=sr_1_6?ie=UTF8&amp;qid=1315580083&amp;sr=8-6</A>
-</P>
-
-<H2>Book description</H2>
-
-<P>
-Grammars of natural languages are complex systems, and their
-computer implementation requires both programming skills and
-linguistic knowledge, especially when dealing with other languages
-than English. This book makes such tasks accessible for a wide
-range of programmers. It introduces GF (Grammatical Framework),
-which is a programming language designed for writing grammars, which
-may moreover address several languages in parallel.
-The book shows how to write grammars in GF and use them in applications
-such as tourist phrasebooks, spoken dialogue systems, and natural
-language interfaces. The examples and exercises address several
-languages, and the readers are guided to look at their own languages
-from the computational perspective.
-</P>
-<P>
-With an emphasis on good engineering, the book promotes modularity
-and division of labour - in particular, the use of libraries. It
-introduces the GF Resource Grammar Library, which currently addresses
-16 languages. This number is constantly growing due to contributions
-from the international GF community. The library makes it painless to
-build applications and to port them to new languages. The book
-introduces a wide range of such applications, which run on platforms
-ranging from web servers to mobile phones. But the book also gives
-guidance for those readers who want to understand the underlying
-linguistics and implement resource grammars for new languages.
-</P>
-<P>
-The book starts with a hands-on tutorial, continues with a selection
-of advanced topics, and ends with a complete reference manual
-of GF. Requiring very little background knowledge, it is accessible
-for second-year students that have experience with computers and an
-interest for languages. At the same time, its novel and advanced
-material makes it interesting for senior researchers in computer science,
-linguistics, and related fields.
-</P>
-
-<H2>How to cite</H2>
-
-<PRE>
- @Book{ranta-2011,
- author = {Aarne Ranta},
- title = {{Grammatical Framework:
- Programming with Multilingual Grammars}},
- publisher = {{CSLI Publications}},
- year = {2011},
- address = "Stanford",
- note = "ISBN-10: 1-57586-626-9 (Paper), 1-57586-627-7 (Cloth)"
- }
-</PRE>
-
-<H2>Table of Contents</H2>
-
-<P>
-<A HREF="toc-gf-book.txt">Detailed Table of Contents</A>
-</P>
-
-<H2>Supporting material</H2>
-
-<P>
-<A HREF="./gf-book-slides.pdf">Slides</A> for teaching the book chapter by chapter.
-</P>
-<P>
-<A HREF="./examples">Code examples</A>. You can also download the
-complete example set as a compressed tar file,
-<A HREF="gf-book-examples.tgz">gf-book-examples.tgz</A>.
-</P>
-<P>
-<A HREF="http://www.grammaticalframework.org/demos/gfse/">GF Web IDE</A>:
-build grammars in the cloud, without installing GF.
-</P>
-<P>
-Demos
-</P>
-
-<UL>
-<LI><A HREF="http://www.grammaticalframework.org:41296/minibar/minibar.html">on-line translator</A> (Section 7.12)
-<LI><A HREF="http://www.grammaticalframework.org/demos/resource-api/editor.html">syntax editor</A> (Section 7.13)
-<LI><A HREF="http://www.youtube.com/watch?v=1bfaYHWS6zU">multimodal dialogue system</A> (Section 7.15)
-</UL>
-
-<P>
-Other tutorials:
-</P>
-
-<UL>
-<LI><A HREF="../doc/tutorial/gf-tutorial.html">GF Tutorial</A>: programmer-oriented,
- covering parts of chapters 2-8
-<LI><A HREF="../doc/gf-lrec-2010.pdf">GF Resource Tutorial</A>: linguist-oriented,
- covering parts of chapters 2-5, 9-10
-</UL>
-
-<P>
-<A HREF="http://www.grammaticalframework.org/doc/gf-bibliography.html">Works mentioned in references</A>;
-more download links will be added.
-</P>
-<P>
-<A HREF="http://www.grammaticalframework.org/lib/doc/synopsis.html">Resource Grammar Library API</A>
-</P>
-<P>
-<A HREF="http://www.grammaticalframework.org/download">Sources and binaries</A>
-for GF 3.2, which exactly matches the book.
-</P>
-<P>
-GF Home Page: <A HREF="http://www.grammaticalframework.org/">http://www.grammaticalframework.org/</A>
-</P>
-<P>
-Author's email: aarne'at'chalmers'dot'se
-</P>
-<P>
-Author's home page: <A HREF="http://www.cse.chalmers.se/~aarne/">http://www.cse.chalmers.se/~aarne/</A>
-</P>
-
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