Difference between revisions of "Publications/valais.19.els"
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| address = Genova, Italy |
| address = Genova, Italy |
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| booktitle = 12th European Lisp Symposium |
| booktitle = 12th European Lisp Symposium |
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| ⚫ | | abstract = We present here our partial implementation of Baker's decision procedure for SUBTYPEP. In his article “A Decision Procedure for Common Lisp's SUBTYPEP Predicate”he claims to provide implementation guidelines to obtain a SUBTYPEP more accurate and as efficient as the average implementation. However, he did not provide any serious implementation and his description is sometimes obscure. In this paper we present our implementation of part of his procedure, only supporting primitive types, CLOS classesmember, range and logical type specifiers. We explain in our words our understanding of his procedure, with much more detail and examples than in Baker's article. We therefore clarify many parts of his description and fill in some of its gaps or omissions. We also argue in favor and against some of his choices and present our alternative solutions. We further provide some proofs that might be missing in his article and some early efficiency results. We have not released any code yet but we plan to open source it as soon as it is presentable. |
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| lrdekeywords = type systems, Common Lisp |
| lrdekeywords = type systems, Common Lisp |
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| + | | lrdepaper = http://www.lrde.epita.fr/dload/papers/valais.19.els.pdf |
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| + | | lrdeslides = http://www.lrde.epita.fr/dload/papers/valais.19.els.slides.pdf |
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| lrdeprojects = Climb |
| lrdeprojects = Climb |
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| lrdestatus = accepted |
| lrdestatus = accepted |
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| lrdenewsdate = 2019-04-01 |
| lrdenewsdate = 2019-04-01 |
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| ⚫ | | abstract = We present here our partial implementation of Baker's decision procedure for SUBTYPEP. In his article “A Decision Procedure for Common Lisp's SUBTYPEP Predicate”he claims to provide implementation guidelines to obtain a SUBTYPEP more accurate and as efficient as the average implementation. However, he did not provide any serious implementation and his description is sometimes obscure. In this paper we present our implementation of part of his procedure, only supporting primitive types, CLOS classesmember, range and logical type specifiers. We explain in our words our understanding of his procedure, with much more detail and examples than in Baker's article. We therefore clarify many parts of his description and fill in some of its gaps or omissions. We also argue in favor and against some of his choices and present our alternative solutions. We further provide some proofs that might be missing in his article and some early efficiency results. We have not released any code yet but we plan to open source it as soon as it is presentable. |
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| type = inproceedings |
| type = inproceedings |
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| id = valais.19.els |
| id = valais.19.els |
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| + | | identifier = doi:10.5281/zenodo.2646982 |
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| bibtex = |
| bibtex = |
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@InProceedings<nowiki>{</nowiki> valais.19.els, |
@InProceedings<nowiki>{</nowiki> valais.19.els, |
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year = 2019, |
year = 2019, |
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month = apr, |
month = apr, |
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| ⚫ | |||
abstract = <nowiki>{</nowiki>We present here our partial implementation of Baker's |
abstract = <nowiki>{</nowiki>We present here our partial implementation of Baker's |
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decision procedure for SUBTYPEP. In his article ``A |
decision procedure for SUBTYPEP. In his article ``A |
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missing in his article and some early efficiency results. |
missing in his article and some early efficiency results. |
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We have not released any code yet but we plan to open |
We have not released any code yet but we plan to open |
||
| − | source it as soon as it is presentable.<nowiki>}</nowiki> |
+ | source it as soon as it is presentable.<nowiki>}</nowiki>, |
| ⚫ | |||
| + | doi = <nowiki>{</nowiki>10.5281/zenodo.2646982<nowiki>}</nowiki> |
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<nowiki>}</nowiki> |
<nowiki>}</nowiki> |
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Latest revision as of 19:08, 7 April 2023
- Authors
- Léo Valais, Jim Newton, Didier Verna
- Where
- 12th European Lisp Symposium
- Place
- Genova, Italy
- Type
- inproceedings
- Projects
- Climb
- Keywords
- type systems, Common Lisp
- Date
- 2019-04-01
Abstract
We present here our partial implementation of Baker's decision procedure for SUBTYPEP. In his article “A Decision Procedure for Common Lisp's SUBTYPEP Predicate”he claims to provide implementation guidelines to obtain a SUBTYPEP more accurate and as efficient as the average implementation. However, he did not provide any serious implementation and his description is sometimes obscure. In this paper we present our implementation of part of his procedure, only supporting primitive types, CLOS classesmember, range and logical type specifiers. We explain in our words our understanding of his procedure, with much more detail and examples than in Baker's article. We therefore clarify many parts of his description and fill in some of its gaps or omissions. We also argue in favor and against some of his choices and present our alternative solutions. We further provide some proofs that might be missing in his article and some early efficiency results. We have not released any code yet but we plan to open source it as soon as it is presentable.
Documents
Bibtex (lrde.bib)
@InProceedings{ valais.19.els,
author = {L\'eo Valais and Jim Newton and Didier Verna},
title = {Implementing Baker's \texttt{SUBTYPEP} decision procedure},
address = {Genova, Italy},
booktitle = {12th European Lisp Symposium},
year = 2019,
month = apr,
abstract = {We present here our partial implementation of Baker's
decision procedure for SUBTYPEP. In his article ``A
Decision Procedure for Common Lisp's SUBTYPEP Predicate'',
he claims to provide implementation guidelines to obtain a
SUBTYPEP more accurate and as efficient as the average
implementation. However, he did not provide any serious
implementation and his description is sometimes obscure. In
this paper we present our implementation of part of his
procedure, only supporting primitive types, CLOS classes,
member, range and logical type specifiers. We explain in
our words our understanding of his procedure, with much
more detail and examples than in Baker's article. We
therefore clarify many parts of his description and fill in
some of its gaps or omissions. We also argue in favor and
against some of his choices and present our alternative
solutions. We further provide some proofs that might be
missing in his article and some early efficiency results.
We have not released any code yet but we plan to open
source it as soon as it is presentable.},
lrdestatus = {accepted},
doi = {10.5281/zenodo.2646982}
}