AbstractWe present a generic scheme for the declarative debugging of functional logic programs which is valid for eager as well as lazy programs. In particular we show that the framework extends naturally some previous work and applies to the most modern lazy strategies, such as needed narrowing. First we associate to our programs a semantics based on a (continuous) immediate consequence operator, T R , which models computed answers. We show that, given the intended specification of a program R , it is possible to check the correctness of R by a single step of T R . We consider then a more effective methodology which is based on abstract interpretation: by appr...
AbstractWe present a declarative debugger for lazy functional logic programs with polymorphic type d...
Abstract. We present a declarative method for diagnosing wrong com-puted answers in CFLP (D), a newl...
The Italian contribution to functional-logic programming has been significant and influential in a n...
AbstractWe present a generic scheme for the declarative debugging of functional logic programs which...
AbstractWe present a general framework for the declarative debugging of functional logic programs, w...
We present a generic scheme for the declarative debugging of functional logic programs which is vali...
We present a generic scheme for the declarative debugging of functional logic programs which is vali...
We present a general framework for the declarative debugging of functional logic programs, which is ...
AbstractWe present a logical and semantic framework for diagnosing wrong computed answers in CFLP(D)...
We present a generic scheme for the declarative debugging of programs that are written in rewriting-...
AbstractThis paper is based on a recently developed technique to build debugging tools for lazy func...
We present a declarative debugger for lazy functional logic programs with polymorphic type disciplin...
Abstract. We present a generic scheme for the abstract debugging of functional logic programs. We as...
AbstractThis paper is part of a comprehensive approach to debugging for functional logic languages. ...
. Lazy functional languages have non-strict semantics and are purely declarative, i.e. they support ...
AbstractWe present a declarative debugger for lazy functional logic programs with polymorphic type d...
Abstract. We present a declarative method for diagnosing wrong com-puted answers in CFLP (D), a newl...
The Italian contribution to functional-logic programming has been significant and influential in a n...
AbstractWe present a generic scheme for the declarative debugging of functional logic programs which...
AbstractWe present a general framework for the declarative debugging of functional logic programs, w...
We present a generic scheme for the declarative debugging of functional logic programs which is vali...
We present a generic scheme for the declarative debugging of functional logic programs which is vali...
We present a general framework for the declarative debugging of functional logic programs, which is ...
AbstractWe present a logical and semantic framework for diagnosing wrong computed answers in CFLP(D)...
We present a generic scheme for the declarative debugging of programs that are written in rewriting-...
AbstractThis paper is based on a recently developed technique to build debugging tools for lazy func...
We present a declarative debugger for lazy functional logic programs with polymorphic type disciplin...
Abstract. We present a generic scheme for the abstract debugging of functional logic programs. We as...
AbstractThis paper is part of a comprehensive approach to debugging for functional logic languages. ...
. Lazy functional languages have non-strict semantics and are purely declarative, i.e. they support ...
AbstractWe present a declarative debugger for lazy functional logic programs with polymorphic type d...
Abstract. We present a declarative method for diagnosing wrong com-puted answers in CFLP (D), a newl...
The Italian contribution to functional-logic programming has been significant and influential in a n...