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Nistor, Ligia, Kurilova, Darya, Balzer, Stephanie, Chung, Benjamin, Potanin, Alex, Aldrich, Jonathan.  2013.  Wyvern: A Simple, Typed, and Pure Object-oriented Language. Proceedings of the 5th Workshop on MechAnisms for SPEcialization, Generalization and inHerItance. :9–16.
The simplest and purest practical object-oriented language designs today are seen in dynamically-typed languages, such as Smalltalk and Self. Static types, however, have potential benefits for productivity, security, and reasoning about programs. In this paper, we describe the design of Wyvern, a statically typed, pure object-oriented language that attempts to retain much of the simplicity and expressiveness of these iconic designs. Our goals lead us to combine pure object-oriented and functional abstractions in a simple, typed setting. We present a foundational object-based language that we believe to be as close as one can get to simple typed lambda calculus while keeping object-orientation. We show how this foundational language can be translated to the typed lambda calculus via standard encodings. We then define a simple extension to this language that introduces classes and show that classes are no more than sugar for the foundational object-based language. Our future intention is to demonstrate that modules and other object-oriented features can be added to our language as not more than such syntactical extensions while keeping the object-oriented core as pure as possible. The design of Wyvern closely follows both historical and modern ideas about the essence of object-orientation, suggesting a new way to think about a minimal, practical, typed core language for objects.
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Kurilova, Darya, Omar, Cyrus, Nistor, Ligia, Chung, Benjamin, Potanin, Alex, Aldrich, Jonathan.  2014.  Type-specific Languages to Fight Injection Attacks. Proceedings of the 2014 Symposium and Bootcamp on the Science of Security. :18:1–18:2.

Injection vulnerabilities have topped rankings of the most critical web application vulnerabilities for several years [1, 2]. They can occur anywhere where user input may be erroneously executed as code. The injected input is typically aimed at gaining unauthorized access to the system or to private information within it, corrupting the system's data, or disturbing system availability. Injection vulnerabilities are tedious and difficult to prevent.

Omar, Cyrus, Chung, Benjamin, Kurilova, Darya, Potanin, Alex, Aldrich, Jonathan.  2013.  Type-directed, whitespace-delimited parsing for embedded DSLs. Proceedings of the First Workshop on the Globalization of Domain Specific Languages. :8–11.
Domain-specific languages improve ease-of-use, expressiveness and verifiability, but defining and using different DSLs within a single application remains difficult. We introduce an approach for embedded DSLs where 1) whitespace delimits DSL-governed blocks, and 2) the parsing and type checking phases occur in tandem so that the expected type of the block determines which domain-specific parser governs that block. We argue that this approach occupies a sweet spot, providing high expressiveness and ease-of-use while maintaining safe composability. We introduce the design, provide examples and describe an ongoing implementation of this strategy in the Wyvern programming language. We also discuss how a more conventional keyword-directed strategy for parsing of DSLs can arise as a special case of this type-directed strategy.