Modern software is no more developed in a single programming language. Instead, programmers tend to exploit cross-language interoperability mechanisms to combine code stemming from different languages, and thus yielding fully-fledged multi-language programs. Whilst this approach enables developers to benefit from the strengths of each single-language, on the other hand it complicates the semantics of such programs. Indeed, the resulting multi-language does not meet any of the semantics of the combined languages. In this paper, we broaden the boundary functions-based approachà la Matthews and Findler to propose an algebraic framework that provides a constructive mathematical notion of multi-language able to determine its semantics. The aim of this work is to overcome the lack of a formal method (resp., model) to design (resp., represent) a multi-language, regardless of the inherent nature of the underlying languages. We show that our construction ensures the uniqueness of the semantic function (i.e., the multi-language semantics induced by the combined languages) by proving the initiality of the term model (i.e., the abstract syntax of the multi-language) in its category.
Modern software development rarely takes place within a single programming language. Often, programmers appeal to cross-language interoperability. Examples are exploitation of novel features of one language within another, and cross-language code reuse. Previous works developed a theory of so-called multi-languages, which arise by combining existing languages, defining a precise notion of (algebraic) multi-language semantics. As regards static analysis, the heterogeneity of the multilanguage context opens up new and unexplored scenarios. In this paper, we provide a general theory for the combination of abstract interpretations of existing languages, regardless of their inherent nature, in order to gain an abstract semantics of multi-language programs. As a part of this general theory, we show that formal properties of interest of multilanguage abstractions (e.g., soundness and completeness) boil down to the features of the interoperability mechanism that binds the underlying languages together. We extend many of the standard concepts of abstract interpretation to the framework of multi-languages.
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