Title :
Linear Dependent Types and Relative Completeness
Author :
Lago, Ugo Dal ; Gaboardi, Marco
Author_Institution :
Dipt. di Sci. dell´´Inf., Univ. di Bologna, Bologna, Italy
Abstract :
A system of linear dependent types for the lambda calculus with full higher-order recursion, called dℓPCF, is introduced and proved sound and relatively complete. Completeness holds in a strong sense: dℓPCF is not only able to precisely capture the functional behaviour of PCF programs (i.e. how the output relates to the input) but also some of their intensional properties, namely the complexity of evaluating them with Krivine´s Machine. dℓPCF is designed around dependent types and linear logic and is parametrized on the underlying language of index terms, which can be tuned so as to sacrifice completeness for tractability.
Keywords :
computational complexity; functional languages; lambda calculus; program control structures; Krivine´s machine; PCF programs; dℓPCF; higher-order recursion; lambda calculus; linear dependent types; linear logic; relative completeness; Complexity theory; Context; Indexes; Polynomials; Semantics; Vegetation; implicit computational complexity; lambda calculus; relative completeness; type systems;
Conference_Titel :
Logic in Computer Science (LICS), 2011 26th Annual IEEE Symposium on
Conference_Location :
Toronto, ON
Print_ISBN :
978-1-4577-0451-2
Electronic_ISBN :
1043-6871
DOI :
10.1109/LICS.2011.22
