\documentclass[anonymous,USenglish]{llncs} %This is a template for producing LIPIcs articles. %See lipics-v2021-authors-guidelines.pdf for further information. %for A4 paper format use option "a4paper", for US-letter use option "letterpaper" %for british hyphenation rules use option "UKenglish", for american hyphenation rules use option "USenglish" %for section-numbered lemmas etc., use "numberwithinsect" %for enabling cleveref support, use "cleveref" %for enabling autoref support, use "autoref" %for anonymousing the authors (e.g. for double-blind review), add "anonymous" %for enabling thm-restate support, use "thm-restate" %for enabling a two-column layout for the author/affilation part (only applicable for > 6 authors), use "authorcolumns" %for producing a PDF according the PDF/A standard, add "pdfa" %\pdfoutput=1 %uncomment to ensure pdflatex processing (mandatatory e.g. to submit to arXiv) %\hideLIPIcs %uncomment to remove references to LIPIcs series (logo, DOI, ...), e.g. when preparing a pre-final version to be uploaded to arXiv or another public repository %\graphicspath{{./graphics/}}%helpful if your graphic files are in another directory \usepackage[T1]{fontenc} \usepackage{cite} \usepackage[disable]{todonotes} % [disable] \usepackage[utf8]{inputenc} \usepackage{hyperref} \usepackage{amsmath} \usepackage{amssymb} \usepackage{subcaption} \usepackage{prftree} \usepackage{tabularx} \usepackage{multicol} \usepackage{nicematrix} \usepackage{tikz} \usepackage{soul} \newcommand{\mathcolorbox}[2]{\colorbox{#1}{$\displaystyle #2$}} \usepackage{cancel} \usepackage{tcolorbox} \usepackage{arydshln} \usepackage{dashbox} \input{prolog} \begin{document} \bibliographystyle{plainurl}% the mandatory bibstyle \title{Global Type Inference for Featherweight Java with Wildcards} %TODO Please add %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% ANON % \author{Andreas Stadelmeier\inst{1}, Martin Plümicke\inst{1}, Peter Thiemann\inst{2}} % \institute{DHBW Stuttgart, Campus Horb, Germany\\ % \email{a.stadelmeier@hb.dhbw-stuttgart.de} \and % Universität Freiburg, Institut für Informatik, Germany\\ % \email{thiemann@informatik.uni-freiburg.de}} % \authorrunning{A. Stadelmeier and M. Plümicke and P. Thiemann} %% END ANON %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %\category{} %optional, e.g. invited paper %\relatedversion{} %optional, e.g. full version hosted on arXiv, HAL, or other respository/website %\relatedversiondetails[linktext={opt. text shown instead of the URL}, cite=DBLP:books/mk/GrayR93]{Classification (e.g. Full Version, Extended Version, Previous Version}{URL to related version} %linktext and cite are optional %\supplement{}%optional, e.g. related research data, source code, ... hosted on a repository like zenodo, figshare, GitHub, ... %\supplementdetails[linktext={opt. text shown instead of the URL}, cite=DBLP:books/mk/GrayR93, subcategory={Description, Subcategory}, swhid={Software Heritage Identifier}]{General Classification (e.g. Software, Dataset, Model, ...)}{URL to related version} %linktext, cite, and subcategory are optional %\funding{(Optional) general funding statement \dots}%optional, to capture a funding statement, which applies to all authors. Please enter author specific funding statements as fifth argument of the \author macro. %\acknowledgements{I want to thank \dots}%optional %\nolinenumbers %uncomment to disable line numbering % %Editor-only macros:: begin (do not touch as author)%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % \EventEditors{John Q. Open and Joan R. Access} % \EventNoEds{2} % \EventLongTitle{42nd Conference on Very Important Topics (CVIT 2016)} % \EventShortTitle{CVIT 2016} % \EventAcronym{CVIT} % \EventYear{2016} % \EventDate{December 24--27, 2016} % \EventLocation{Little Whinging, United Kingdom} % \EventLogo{} % \SeriesVolume{42} % \ArticleNo{23} % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \maketitle %TODO mandatory: add short abstract of the document \begin{abstract} Type inference is a hallmark of functional programming. Its use in object-oriented programming is often restricted to type inference for local variables and the instantiation of generic type parameters. Global type inference for Featherweight Generic Java is a whole-program analysis that infers omitted method signatures. Compared to previous work, its results are more general as it infers types with wildcards. Global type inference is proved sound. \end{abstract} \keywords{type inference, Java, subtyping, generics} %TODO mandatory; please add comma-separated list of keywords \input{introduction} %\input{letfjTransformation} \input{tRules} \input{typeinference} %\input{tiRules} \input{constraints} \input{Unify} \include{relatedwork} \input{conclusion} %\include{termination} \bibliography{martin} \appendix \include{soundness} \include{helpers} %\include{examples} %\input{exampleWildcardParameter} %\input{commonPatternsProof} %\input{appendix} \end{document}