Higher-order binding-time analysis

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Higher-order binding-time analysis

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ACM/SIGPLAN Workshop Partial Evaluation and Semantics-Based Program Manipulation archive
Proceedings of the 1993 ACM SIGPLAN symposium on Partial evaluation and semantics-based program manipulation table of contents

Copenhagen, Denmark

Pages: 78 - 87

Year of Publication: 1993

ISBN:0-89791-594-1

Author

Kei Davis

Univ. of Glasgow, Glasgow, UK

Sponsor

SIGPLAN: ACM Special Interest Group on Programming Languages

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 3, Downloads (12 Months): 7, Citation Count: 1

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ABSTRACT

The partial evaluation process requires a binding-time analysis. Binding-time analysis seeks to determine which parts of a program's result is determined when some part of the input is known. Domain projections provide a very general way to encode a description of which parts of a data structure are static (known), and which are dynamic (not static). For first-order functional languages Launchbury [Lau91a] has developed an abstract interpretation technique for binding-time analysis in which the basic abstract value is a projection. Unfortunately this technique does not generalise easily to higher-order languages. This paper develops such a generalisation: a projection-based abstract interpretation suitable for higher-order binding-time analysis. Launchbury [Lau91b] has shown that binding-time analysis and strictness analysis are equivalent problems at first order, and for projection-based analyses have exactly the same safety condition. We argue that the same is true at higher order, and hence our development also leads to a higher-order projection-based strictness analysis. The principal limitation of our technique is the restriction to monomorphic typing.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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