AbstractFinitely typed functional programs are naturally classified by their levels. This syntactic classification of functional programs corresponds to a semantical classification: the higher the level of functional programs, the more functions they can compute. We call FL the language of finitely typed functional programs. The halting problem on finite interpretations is elementary recursive for every FL program, i.e. for every FL program P there is an elementary recursive procedure to decide for every finite interpretation I whether P halts on I.The well-known programming language ML is essentially FL, augmented with the polymorphic let-in constructor. We show that ML computes the same class of functions as FL. As a consequence
We construct a universal and even logically fully abstract realizability model for the sequential fu...
AbstractProblems related to the complexity and to the decidability of several languages weaker than ...
AbstractThis paper presents a functional programming language, based on Moggi’s monadic metalanguage...
AbstractFinitely typed functional programs are naturally classified by their levels. This syntactic ...
The goal of this research is to design and implement a small functional programming language that in...
We study a series of milestones leading to the emergence of lazy, higher order, polymorphically type...
AbstractIn this paper we study the constrained equivalence of programs with effects. In particular, ...
A standard informal method for analyzing the asymptotic complexity of a program is to extract a recu...
We present a toy functional programming language inspired by our work on PML together with a criteri...
. Higher-order programming languages, such as ML, permit a flexible programming style by using compi...
We consider the interaction of recursion with extensional data types in several typed functional pro...
The type-free ¿-calculus is powerful enough to contain all the polymorphic and higher-order nature o...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
AbstractFunctional languages are based on the notion of application: programs may be applied to data...
AbstractThe type-free λ-calculus is powerful enough to contain all the polymorphic and higher-order ...
We construct a universal and even logically fully abstract realizability model for the sequential fu...
AbstractProblems related to the complexity and to the decidability of several languages weaker than ...
AbstractThis paper presents a functional programming language, based on Moggi’s monadic metalanguage...
AbstractFinitely typed functional programs are naturally classified by their levels. This syntactic ...
The goal of this research is to design and implement a small functional programming language that in...
We study a series of milestones leading to the emergence of lazy, higher order, polymorphically type...
AbstractIn this paper we study the constrained equivalence of programs with effects. In particular, ...
A standard informal method for analyzing the asymptotic complexity of a program is to extract a recu...
We present a toy functional programming language inspired by our work on PML together with a criteri...
. Higher-order programming languages, such as ML, permit a flexible programming style by using compi...
We consider the interaction of recursion with extensional data types in several typed functional pro...
The type-free ¿-calculus is powerful enough to contain all the polymorphic and higher-order nature o...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
AbstractFunctional languages are based on the notion of application: programs may be applied to data...
AbstractThe type-free λ-calculus is powerful enough to contain all the polymorphic and higher-order ...
We construct a universal and even logically fully abstract realizability model for the sequential fu...
AbstractProblems related to the complexity and to the decidability of several languages weaker than ...
AbstractThis paper presents a functional programming language, based on Moggi’s monadic metalanguage...