4 research outputs found

    Certifying and reasoning on cost annotations in C programs

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    International audienceWe present a so-called labelling method to enrich a compiler in order to turn it into a ''cost annotating compiler'', that is, a compiler which can {\em lift} pieces of information on the execution cost of the object code as cost annotations on the source code. These cost annotations characterize the execution costs of code fragments of constant complexity. The first contribution of this paper is a proof methodology that extends standard simulation proofs of compiler correctness to ensure that the cost annotations on the source code are sound and precise with respect to an execution cost model of the object code. As a second contribution, we demonstrate that our label-based instrumentation is scalable because it consists in a modular extension of the compilation chain. To that end, we report our successful experience in implementing and testing the labelling approach on top of a prototype compiler written in \ocaml for (a large fragment of) the {\sc C} language. As a third and last contribution, we provide evidence for the usability of the generated cost annotations as a mean to reason on the concrete complexity of programs written in {\sc C}. For this purpose, we present a {\sc Frama-C} plugin that uses our cost annotating compiler to automatically infer trustworthy logic assertions about the concrete worst case execution cost of programs written in a fragment of the {\sc C} language. These logic assertions are synthetic in the sense that they characterize the cost of executing the entire program, not only constant-time fragments. (These bounds may depend on the size of the input data.) We report our experimentations on some {\sc C} programs, especially programs generated by a compiler for the synchronous programming language {\sc Lustre} used in critical embedded software

    Certifying and reasoning about cost annotations of functional programs

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    We present a so-called labelling method to insert cost annotations in a higher-order functional program, to certify their correctness with respect to a standard compilation chain to assembly code including safe memory management, and to reason on them in a higher-order Hoare logic.Comment: Higher-Order and Symbolic Computation (2013

    Certifying and Reasoning on Cost Annotations of Functional Programs

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