From 2b5e1f66f0ceb8b00e1c29dc9e3cb18ce3554bbd Mon Sep 17 00:00:00 2001 From: Andres Rey Date: Thu, 8 Dec 2016 15:44:37 +0000 Subject: Refactored readability.js expected files to match readability.php style --- test/test-pages/reordering-paragraphs/expected.html | 5 +---- 1 file changed, 1 insertion(+), 4 deletions(-) (limited to 'test/test-pages/reordering-paragraphs/expected.html') diff --git a/test/test-pages/reordering-paragraphs/expected.html b/test/test-pages/reordering-paragraphs/expected.html index 7d15fcc..506f291 100644 --- a/test/test-pages/reordering-paragraphs/expected.html +++ b/test/test-pages/reordering-paragraphs/expected.html @@ -1,5 +1,2 @@ -

Regarding item# 11111, under sufficiently extreme conditions, quarks may become deconfined and exist as free particles. In the course of asymptotic freedom, the strong interaction becomes weaker at higher temperatures. Eventually, color confinement would be lost and an extremely hot plasma of freely moving quarks and gluons would be formed. This theoretical phase of matter is called quark-gluon plasma.[81] The exact conditions needed to give rise to this state are unknown and have been the subject of a great deal of speculation and experimentation.

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Regarding item# 22222, under sufficiently extreme conditions, quarks may become deconfined and exist as free particles. In the course of asymptotic freedom, the strong interaction becomes weaker at higher temperatures. Eventually, color confinement would be lost and an extremely hot plasma of freely moving quarks and gluons would be formed. This theoretical phase of matter is called quark-gluon plasma.[81] The exact conditions needed to give rise to this state are unknown and have been the subject of a great deal of speculation and experimentation.

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Regarding item# 33333, under sufficiently extreme conditions, quarks may become deconfined and exist as free particles. In the course of asymptotic freedom, the strong interaction becomes weaker at higher temperatures. Eventually, color confinement would be lost and an extremely hot plasma of freely moving quarks and gluons would be formed. This theoretical phase of matter is called quark-gluon plasma.[81] The exact conditions needed to give rise to this state are unknown and have been the subject of a great deal of speculation and experimentation.

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Regarding item# 22222, under sufficiently extreme conditions, quarks may become deconfined and exist as free particles. In the course of asymptotic freedom, the strong interaction becomes weaker at higher temperatures. Eventually, color confinement would be lost and an extremely hot plasma of freely moving quarks and gluons would be formed. This theoretical phase of matter is called quark-gluon plasma.[81] The exact conditions needed to give rise to this state are unknown and have been the subject of a great deal of speculation and experimentation.

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