From 0226e0ca0dc70f9a0310b3eef045ee1c1e0ca3ac Mon Sep 17 00:00:00 2001
From: Andrew Dolgov <noreply@fakecake.org>
Date: Tue, 13 Dec 2022 20:00:46 +0300
Subject: split into a separate repo

---
 .../test-pages/reordering-paragraphs/source.html   | 34 ++++++++++++++++++++++
 1 file changed, 34 insertions(+)
 create mode 100644 vendor/fivefilters/readability.php/test/test-pages/reordering-paragraphs/source.html

(limited to 'vendor/fivefilters/readability.php/test/test-pages/reordering-paragraphs/source.html')

diff --git a/vendor/fivefilters/readability.php/test/test-pages/reordering-paragraphs/source.html b/vendor/fivefilters/readability.php/test/test-pages/reordering-paragraphs/source.html
new file mode 100644
index 0000000..d081a94
--- /dev/null
+++ b/vendor/fivefilters/readability.php/test/test-pages/reordering-paragraphs/source.html
@@ -0,0 +1,34 @@
+<html>
+    
+    <head></head>
+    
+    <body>
+        <br id="br1"/>
+        <p id="first">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.</p>
+        <p id="second">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.</p>
+        <p id="third">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.</p>
+        <br id="br2"/>
+    </body>
+
+</html>
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