Verifying an Open Compiler Using Multi-language Semantics

Perconti, James T.; Ahmed, Amal

doi:10.1007/978-3-642-54833-8_8

Cited by 49 publications

(40 citation statements)

References 25 publications

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“…As mentioned in §1, Perconti and Ahmed [22] proved correctness of a functionallanguage compiler that performs closure conversion and heap allocation. We can easily adapt our multi-language to verify correctness of a code-generation pass from their allocation target A to T, changing FT to AT.…”

Section: Compositional Compiler Correctnessmentioning

confidence: 91%

“…We also build on multi-languages used for compiler correctness [2,20,22] which embed the source (higher-level) and target (lower-level) languages of a compiler, though none of that work considers interoperability with a language as low-level as assembly.…”

Section: Related Workmentioning

confidence: 99%

“…Perconti and Ahmed [1,22] argue that correctness theorems for verified compilers that account for such linking must include mixed-language reasoning. Specifically, they set up multi-languages that specify the rules of source-target interoperability and then express compiler correctness as multi-language equivalence between a source component e S and its compiled version e T .…”

Section: Introductionmentioning

confidence: 99%

“…Note that Perconti and Ahmed [22] left the design of a multilanguage that embeds assembly as future work. Since they did not show how to verify a code generation pass to assembly, they didn't need to define interoperability between a high-level, expression-based language and a low-level language with direct jumps.…”

Section: Introductionmentioning

confidence: 99%

“…It builds on prior logical relations for mutable state [4,10,22], but is the first to support reasoning about equivalence of programs that mix assembly with lambdas (including callbacks between them), and of assembly components comprised of different numbers of basic blocks. The central novelty lies in the mechanics of accommodating assembly and equivalence of multi-block components.…”

Section: Introductionmentioning

confidence: 99%

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FunTAL: reasonably mixing a functional language with assembly

et al. 2017

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We present FunTAL, the first multi-language system to formalize safe interoperability between a high-level functional language and low-level assembly code while supporting compositional reasoning about the mix. A central challenge in developing such a multi-language is bridging the gap between assembly, which is staged into jumps to continuations, and high-level code, where subterms return a result. We present a compositional stack-based typed assembly language that supports components, comprised of one or more basic blocks, that may be embedded in high-level contexts. We also present a logical relation for FunTAL that supports reasoning about equivalence of high-level components and their assembly replacements, mixed-language programs with callbacks between languages, and assembly components comprised of different numbers of basic blocks.

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Section: Compositional Compiler Correctnessmentioning

confidence: 91%

Section: Related Workmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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FunTAL: reasonably mixing a functional language with assembly

et al. 2017

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On the Multi-Language Construction

Buro

Mastroeni

2019

Programming Languages and Systems

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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.

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On Multi-language Abstraction

2020

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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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Verifying an Open Compiler Using Multi-language Semantics

Cited by 49 publications

References 25 publications

FunTAL: reasonably mixing a functional language with assembly

FunTAL: reasonably mixing a functional language with assembly

On the Multi-Language Construction

On Multi-language Abstraction

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