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Van Antwerpen, H. (author), Néron, P. (author), Tolmach, A. (author), Visser, E. (author), Wachsmuth, G. (author)In previous work, we introduced scope graphs as a formalism for describing program binding structure and performing name resolution in an AST-independent way. In this paper, we show how to use scope graphs to build static semantic analyzers. We use constraints extracted from the AST to specify facts about binding, typing, and initialization. We...report 2015
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Van Antwerpen, H. (author), Néron, P. (author), Tolmach, A. (author), Visser, E. (author), Wachsmuth, G. (author)In previous work, we introduced scope graphs as a formalism for describing program binding structure and performing name resolution in an AST-independent way. In this paper, we show how to use scope graphs to build static semantic analyzers. We use constraints extracted from the AST to specify facts about binding, typing, and initialization. We...report 2015
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Van Antwerpen, H. (author), Neron, P. (author), Tolmach, A. (author), Visser, E. (author), Wachsmuth, G. (author)We extend and combine two existing declarative formalisms, the scope graphs of Neron et al. and type constraint systems, to build a language-independent theory that can describe both name and type resolution for realistic languages with complex scope and typing rules. Unlike conventional static semantics presentations, our approach maintains a...report 2015
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Neron, P.J.M. (author), Tolmach, A.P. (author), Visser, E. (author), Wachsmuth, G. (author)We describe a language-independent theory for name binding and resolution, suitable for programming languages with complex scoping rules including both lexical scoping and modules. We formulate name resolution as a two stage problem. First a language-independent scope graph is constructed using language-specific rules from an abstract syntax...report 2015