Marc Meister scite author profile

To cite this version:Abstract. Constraint Handling Rules (CHR) is a concurrent, committed-choice, rule-based language. One of the first CHR programs is the classic constraint solver for syntactic equality of rational trees that performs unification. We first prove its exponential complexity in time and space for non-flat equations and deduce from this proof a quadratic complexity for flat equations. We then present an extended CHR solver for solving existentially quantified conjunctions of non-flat equations in the theory of finite or infinite trees. We reach a quadratic complexity by first flattening the equations and introducing new existentially quantified variables, then using the classic solver, and finally eliminating particular equations and quantified variables.

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First Workshop on Constraint Handling Rules

Frühwirth¹,

Meister²

2005

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19th Workshop on (Constraint) Logic Programming W(C)LP 2005

Wolf¹,

Frühwirth²,

Meister³

2005

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Marc Meister

Early Diagnosis of Myocardial Infarction Using Absolute and Relative Changes in Cardiac Troponin Concentrations

A Unified Semantics for Constraint Handling Rules in Transaction Logic

Complexity of a CHR Solver for Existentially Quantified Conjunctions of Equations over Trees

First Workshop on Constraint Handling Rules

19th Workshop on (Constraint) Logic Programming W(C)LP 2005

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