On modularity in infinitary term rewriting

Jakob Grue Simonsen

doi:10.1016/j.ic.2006.02.005

On modularity in infinitary term rewriting

Jakob Grue Simonsen^*

^*Corresponding author af dette arbejde

Datalogisk Institut

5 Citationer (Scopus)

Abstract

We study modular properties in strongly convergent infinitary term rewriting. In particular, we show that: • Confluence is not preserved across direct sum of a finite number of systems, even when these are noncollapsing. • Confluence modulo equality of hypercollapsing subterms is not preserved across direct sum of a finite number of systems. • Normalization is not preserved across direct sum of an infinite number of left-linear systems. • Unique normalization with respect to reduction is not preserved across direct sum of a finite number of left-linear systems. Together, these facts constitute a radical departure from the situation in finitary term rewriting. Positive results are: • Confluence is preserved under the direct sum of an infinite number of left-linear systems iff at most one system contains a collapsing rule. • Confluence is preserved under the direct sum of a finite number of non-collapsing systems if only terms of finite rank are considered. • Top-termination is preserved under the direct sum of a finite number of left-linear systems. • Normalization is preserved under the direct sum of a finite number of left-linear systems. All of the negative results above hold in the setting of weakly convergent rewriting as well, as do the positive results concerning modularity of top-termination and normalization for left-linear systems.

Originalsprog	Engelsk
Tidsskrift	Information and Computation
Vol/bind	204
Udgave nummer	6
Sider (fra-til)	957-988
Antal sider	32
ISSN	0890-5401
DOI	https://doi.org/10.1016/j.ic.2006.02.005
Status	Udgivet - 1 jan. 2006

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title = "On modularity in infinitary term rewriting",

abstract = "We study modular properties in strongly convergent infinitary term rewriting. In particular, we show that: • Confluence is not preserved across direct sum of a finite number of systems, even when these are noncollapsing. • Confluence modulo equality of hypercollapsing subterms is not preserved across direct sum of a finite number of systems. • Normalization is not preserved across direct sum of an infinite number of left-linear systems. • Unique normalization with respect to reduction is not preserved across direct sum of a finite number of left-linear systems. Together, these facts constitute a radical departure from the situation in finitary term rewriting. Positive results are: • Confluence is preserved under the direct sum of an infinite number of left-linear systems iff at most one system contains a collapsing rule. • Confluence is preserved under the direct sum of a finite number of non-collapsing systems if only terms of finite rank are considered. • Top-termination is preserved under the direct sum of a finite number of left-linear systems. • Normalization is preserved under the direct sum of a finite number of left-linear systems. All of the negative results above hold in the setting of weakly convergent rewriting as well, as do the positive results concerning modularity of top-termination and normalization for left-linear systems.",

keywords = "Church-Rosser property, Confluence, Infinitary rewriting, Modularity, Normalization, Strong convergence, Term rewriting",

author = "Simonsen, {Jakob Grue}",

year = "2006",

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language = "English",

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T1 - On modularity in infinitary term rewriting

AU - Simonsen, Jakob Grue

PY - 2006/1/1

Y1 - 2006/1/1

N2 - We study modular properties in strongly convergent infinitary term rewriting. In particular, we show that: • Confluence is not preserved across direct sum of a finite number of systems, even when these are noncollapsing. • Confluence modulo equality of hypercollapsing subterms is not preserved across direct sum of a finite number of systems. • Normalization is not preserved across direct sum of an infinite number of left-linear systems. • Unique normalization with respect to reduction is not preserved across direct sum of a finite number of left-linear systems. Together, these facts constitute a radical departure from the situation in finitary term rewriting. Positive results are: • Confluence is preserved under the direct sum of an infinite number of left-linear systems iff at most one system contains a collapsing rule. • Confluence is preserved under the direct sum of a finite number of non-collapsing systems if only terms of finite rank are considered. • Top-termination is preserved under the direct sum of a finite number of left-linear systems. • Normalization is preserved under the direct sum of a finite number of left-linear systems. All of the negative results above hold in the setting of weakly convergent rewriting as well, as do the positive results concerning modularity of top-termination and normalization for left-linear systems.

AB - We study modular properties in strongly convergent infinitary term rewriting. In particular, we show that: • Confluence is not preserved across direct sum of a finite number of systems, even when these are noncollapsing. • Confluence modulo equality of hypercollapsing subterms is not preserved across direct sum of a finite number of systems. • Normalization is not preserved across direct sum of an infinite number of left-linear systems. • Unique normalization with respect to reduction is not preserved across direct sum of a finite number of left-linear systems. Together, these facts constitute a radical departure from the situation in finitary term rewriting. Positive results are: • Confluence is preserved under the direct sum of an infinite number of left-linear systems iff at most one system contains a collapsing rule. • Confluence is preserved under the direct sum of a finite number of non-collapsing systems if only terms of finite rank are considered. • Top-termination is preserved under the direct sum of a finite number of left-linear systems. • Normalization is preserved under the direct sum of a finite number of left-linear systems. All of the negative results above hold in the setting of weakly convergent rewriting as well, as do the positive results concerning modularity of top-termination and normalization for left-linear systems.

KW - Church-Rosser property

KW - Confluence

KW - Infinitary rewriting

KW - Modularity

KW - Normalization

KW - Strong convergence

KW - Term rewriting

UR - http://www.scopus.com/inward/record.url?scp=84855194957&partnerID=8YFLogxK

U2 - 10.1016/j.ic.2006.02.005

DO - 10.1016/j.ic.2006.02.005

M3 - Journal article

AN - SCOPUS:84855194957

SN - 0890-5401

VL - 204

SP - 957

EP - 988

JO - Information and Computation

JF - Information and Computation

IS - 6

ER -

On modularity in infinitary term rewriting

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