DocumentCode
2038442
Title
Focusing on Binding and Computation
Author
Licata, Daniel R. ; Zeilberger, Noam ; Harper, Robert
Author_Institution
Carnegie Mellon Univ., Pittsburgh, PA
fYear
2008
fDate
24-27 June 2008
Firstpage
241
Lastpage
252
Abstract
Variable binding is a prevalent feature of the syntax and proof theory of many logical systems. In this paper, we define a programming language that provides intrinsic support for both representing and computing with binding. This language is extracted as the Curry-Howard interpretation of a focused sequent calculus with two kinds of implication, of opposite polarity. The representational arrow extends systems of definitional reflection with a notion of scoped inference rules, which are used to represent binding. On the other hand, the usual computational arrow classifies recursive functions defined by pattern-matching. Unlike many previous approaches, both kinds of implication are connectives in a single logic, which serves as a rich logical framework capable of representing inference rules that mix binding and computation.
Keywords
computational linguistics; pattern matching; process algebra; programming languages; theorem proving; Curry-Howard interpretation; focused sequent calculus; inference rules; logical systems; pattern matching; programming language; proof theory; recursive functions; syntax; variable binding; Calculus; Computer languages; Computer science; Databases; Embedded computing; Functional programming; Logic programming; Pattern analysis; Pattern matching; Reflection; binding; computation; logical frameworks; polarity; sequent calculus;
fLanguage
English
Publisher
ieee
Conference_Titel
Logic in Computer Science, 2008. LICS '08. 23rd Annual IEEE Symposium on
Conference_Location
Pittsburgh, PA
ISSN
1043-6871
Print_ISBN
978-0-7695-3183-0
Type
conf
DOI
10.1109/LICS.2008.48
Filename
4557915
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