Abstract
Knowing that two numerical variables always hold different values, at some point of a program, can be very useful, especially for analyzing aliases: if i ≠ j, then A[i] and A[j] are not aliased, and this knowledge is of great help for many other program analyses. Surprisingly, disequalities are seldom considered in abstract interpretation, most of the proposed numerical domains being restricted to convex sets. In this paper, we propose to combine simple ordering properties with disequalities. “Difference-bound matrices” (or DBMs) is a domain proposed by David Dill, for expressing relations of the form “x − y ≤ c” or “c 1 ≤ x ≤ c 2”. We define dDBMs (“disequalities DBMs”) as conjunctions of DBMs with simple disequalities of the form “x ≠ y” or “x ≠ 0”. We give algorithms on dDBMs, for deciding the emptiness, computing a normal form, and performing the usual operations of an abstract domain. These algorithms have the same complexity (O(n 3), where n is the number of variables) than those for classical DBMs, if the variables are considered to be valued in a dense set (ℝ or ℚ). In the arithmetic case, the emptiness decision is NP-complete, and other operations run in O(n 5).
This work has been partially supported by the APRON project of the “ACI Sécurité et Informatique” of the French Ministry of Research.
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Péron, M., Halbwachs, N. (2007). An Abstract Domain Extending Difference-Bound Matrices with Disequality Constraints. In: Cook, B., Podelski, A. (eds) Verification, Model Checking, and Abstract Interpretation. VMCAI 2007. Lecture Notes in Computer Science, vol 4349. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-69738-1_20
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