Abstract
In this paper a formal model for program dependence analysis of concurrent logic programs is proposed with the following contributions. First, two language-independent program representations are presented for explicitly representing control flows and/or data flows in a concurrent logic program. Then based on these representations, program dependences between literals in concurrent logic programs are defined formally, and a dependence-based program representation named the Literal Dependence Net (LDN) is presented for explicitly representing primary program dependences in a concurrent logic program. Finally, as applications of the LDNs, some important software engineering activities including program slicing, debugging, testing, complexity measurement, and maintenance are discussed in a programming environment for concurrent logic programs.
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