mirror of
https://github.com/jezhiggins/arabica
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288 lines
14 KiB
C++
Executable file
288 lines
14 KiB
C++
Executable file
#ifndef TEXT_NODE_TEST_HPP
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#define TEXT_NODE_TEST_HPP
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#include "../CppUnit/framework/TestCase.h"
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#include "../CppUnit/framework/TestSuite.h"
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#include "../CppUnit/framework/TestCaller.h"
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#include <XPath/XPath.hpp>
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#include <DOM/Simple/DOMImplementation.hpp>
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template<class string_type, class string_adaptor>
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class TextNodeTest : public TestCase
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{
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typedef string_adaptor SA;
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Arabica::DOM::DOMImplementation<string_type, string_adaptor> factory_;
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Arabica::DOM::Document<string_type, string_adaptor> document_;
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Arabica::DOM::Element<string_type, string_adaptor> root_;
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Arabica::DOM::Text<string_type, string_adaptor> text1_;
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Arabica::DOM::Text<string_type, string_adaptor> text2_;
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Arabica::DOM::Text<string_type, string_adaptor> text3_;
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Arabica::XPath::XPath<string_type, string_adaptor> parser_;
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typedef Arabica::XPath::XPathExpression<string_type, string_adaptor> XPathExpression_t;
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typedef Arabica::XPath::XPathValue<string_type, string_adaptor> XPathValue_t;
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typedef Arabica::DOM::Node<string_type, string_adaptor> Node_t;
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public:
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TextNodeTest(const std::string& name) : TestCase(name)
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{
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} // TextNodeTest
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void setUp()
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{
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factory_ = Arabica::SimpleDOM::DOMImplementation<string_type, string_adaptor>::getDOMImplementation();
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document_ = factory_.createDocument(SA::construct_from_utf8(""), SA::construct_from_utf8("root"), 0);
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root_ = document_.getDocumentElement();
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text1_ = document_.createTextNode(SA::construct_from_utf8("one"));
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text2_ = document_.createTextNode(SA::construct_from_utf8("two"));
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text3_ = document_.createTextNode(SA::construct_from_utf8("three"));
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root_.appendChild(text1_);
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root_.appendChild(text2_);
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root_.appendChild(text3_);
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} // setUp
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void extraSetUp()
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{
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root_.appendChild(document_.createElement(SA::construct_from_utf8("foo")));
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root_.appendChild(document_.createTextNode(SA::construct_from_utf8("four")));
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root_.appendChild(document_.createTextNode(SA::construct_from_utf8("five")));
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root_.appendChild(document_.createElement(SA::construct_from_utf8("boo")));
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root_.appendChild(document_.createTextNode(SA::construct_from_utf8("six")));
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root_.appendChild(document_.createTextNode(SA::construct_from_utf8("seven")));
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} // extraSetUp
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void test1()
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{
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Node_t node = parser_.evaluate(SA::construct_from_utf8("/root"), document_).asNodeSet()[0];
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assertTrue(node == root_);
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} // test1
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void testTextTest()
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{
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()"), document_);
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assertEquals(1, nodes.asNodeSet().size());
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} // testTextTest
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void testTextTest2()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()"), document_);
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assertEquals(3, nodes.asNodeSet().size());
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} // testTextTest2
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void testTextValue()
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{
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root/text()"), document_).asString();
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assertTrue(SA::construct_from_utf8("onetwothree") == value);
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} // testTextValue
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void testTextValue2()
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{
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extraSetUp();
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root/text()"), document_).asString();
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assertTrue(SA::construct_from_utf8("onetwothree") == value);
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} // testTextValue2
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void testTextValue3()
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{
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root/text()[1]"), document_).asString();
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assertTrue(SA::construct_from_utf8("onetwothree") == value);
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} // testTextValue3
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void testTextValue4()
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{
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extraSetUp();
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root/text()[2]"), document_).asString();
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assertTrue(SA::construct_from_utf8("fourfive") == value);
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} // testTextValue4
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void testTextValue5()
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{
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extraSetUp();
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root/text()[3]"), document_).asString();
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assertTrue(SA::construct_from_utf8("sixseven") == value);
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} // testTextValue5
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void test4()
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{
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root/node()"), document_).asString();
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assertTrue(SA::construct_from_utf8("onetwothree") == value);
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} // test4
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void test5()
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{
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root"), document_).asString();
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assertTrue(SA::construct_from_utf8("onetwothree") == value);
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} // test5
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void test5a()
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{
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extraSetUp();
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string_type value = parser_.evaluate(SA::construct_from_utf8("/root"), document_).asString();
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assertTrue(SA::construct_from_utf8("onetwothreefourfivesixseven") == value);
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} // test5a
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void testNodeTest()
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{
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/node()"), document_);
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assertEquals(1, nodes.asNodeSet().size());
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} // testNodeTest
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void testDescendantOrSelf()
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{
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("//text()"), document_);
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assertEquals(1, nodes.asNodeSet().size());
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} // testDescendantOrSelf
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void testDescendant()
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{
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/descendant::text()"), document_);
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assertEquals(1, nodes.asNodeSet().size());
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} // testDescendant
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void testFollowingSibling1()
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{
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()/following-sibling::node()"), document_);
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assertEquals(0, nodes.asNodeSet().size());
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} // testFollowingSibling1
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void testFollowingSibling2()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()/following-sibling::node()"), document_);
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assertEquals(4, nodes.asNodeSet().size());
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} // testFollowingSibling2
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void testFollowingSibling3()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()/following-sibling::text()"), document_);
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assertEquals(2, nodes.asNodeSet().size());
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} // testFollowingSibling3
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void testFollowing1()
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{
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()/following::node()"), document_);
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assertEquals(0, nodes.asNodeSet().size());
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} // testFollowing1
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void testFollowing2()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()/following::node()"), document_);
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assertEquals(4, nodes.asNodeSet().size());
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} // testFollowing2
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void testFollowing3()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/text()/following::text()"), document_);
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assertEquals(2, nodes.asNodeSet().size());
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} // testFollowing3
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void testPreceding1()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding::node()"), document_);
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assertEquals(4, nodes.asNodeSet().size());
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} // testPreceding1
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void testPreceding2()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding::text()"), document_);
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assertEquals(2, nodes.asNodeSet().size());
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} // testPreceding2
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void testPreceding3()
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{
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extraSetUp();
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XPathValue_t node = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding::text()[1]"), document_);
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assertTrue(SA::construct_from_utf8("fourfive") == node.asString());
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} // testPreceding3
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void testPreceding4()
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{
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extraSetUp();
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XPathValue_t node = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding::text()[2]"), document_);
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assertTrue(SA::construct_from_utf8("onetwothree") == node.asString());
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} // testPreceding4
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void testPrecedingSibling1()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding-sibling::node()"), document_);
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assertEquals(4, nodes.asNodeSet().size());
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} // testPrecedingSibling1
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void testPrecedingSibling2()
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{
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extraSetUp();
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XPathValue_t nodes = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding-sibling::text()"), document_);
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assertEquals(2, nodes.asNodeSet().size());
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} // testPrecedingSibling2
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void testPrecedingSibling3()
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{
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extraSetUp();
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XPathValue_t node = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding-sibling::text()[1]"), document_);
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assertTrue(SA::construct_from_utf8("fourfive") == node.asString());
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} // testPrecedingSibling3
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void testPrecedingSibling4()
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{
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extraSetUp();
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XPathValue_t node = parser_.evaluate(SA::construct_from_utf8("/root/node()[last()]/preceding-sibling::text()[2]"), document_);
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assertTrue(SA::construct_from_utf8("onetwothree") == node.asString());
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} // testPrecedingSibling4
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// PRECEDING
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// PRECEDING_SIBLING
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}; // class TextNodeTest
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template<class string_type, class string_adaptor>
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TestSuite* TextNodeTest_suite()
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{
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TestSuite* suiteOfTests = new TestSuite;
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("test1", &TextNodeTest<string_type, string_adaptor>::test1));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testTextTest", &TextNodeTest<string_type, string_adaptor>::testTextTest));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testTextTest2", &TextNodeTest<string_type, string_adaptor>::testTextTest2));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testTextValue", &TextNodeTest<string_type, string_adaptor>::testTextValue));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testTextValue2", &TextNodeTest<string_type, string_adaptor>::testTextValue2));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testTextValue3", &TextNodeTest<string_type, string_adaptor>::testTextValue3));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testTextValue4", &TextNodeTest<string_type, string_adaptor>::testTextValue4));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testTextValue5", &TextNodeTest<string_type, string_adaptor>::testTextValue5));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("test4", &TextNodeTest<string_type, string_adaptor>::test4));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("test5", &TextNodeTest<string_type, string_adaptor>::test5));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("test5a", &TextNodeTest<string_type, string_adaptor>::test5a));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testNodeTest", &TextNodeTest<string_type, string_adaptor>::testNodeTest));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testDescendantOrSelf", &TextNodeTest<string_type, string_adaptor>::testDescendantOrSelf));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testDescendant", &TextNodeTest<string_type, string_adaptor>::testDescendant));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testFollowingSibling1", &TextNodeTest<string_type, string_adaptor>::testFollowingSibling1));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testFollowingSibling2", &TextNodeTest<string_type, string_adaptor>::testFollowingSibling2));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testFollowingSibling3", &TextNodeTest<string_type, string_adaptor>::testFollowingSibling3));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testFollowing1", &TextNodeTest<string_type, string_adaptor>::testFollowing1));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testFollowing2", &TextNodeTest<string_type, string_adaptor>::testFollowing2));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testFollowing3", &TextNodeTest<string_type, string_adaptor>::testFollowing3));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPreceding1", &TextNodeTest<string_type, string_adaptor>::testPreceding1));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPreceding2", &TextNodeTest<string_type, string_adaptor>::testPreceding2));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPreceding3", &TextNodeTest<string_type, string_adaptor>::testPreceding3));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPreceding4", &TextNodeTest<string_type, string_adaptor>::testPreceding4));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPrecedingSibling1", &TextNodeTest<string_type, string_adaptor>::testPrecedingSibling1));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPrecedingSibling2", &TextNodeTest<string_type, string_adaptor>::testPrecedingSibling2));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPrecedingSibling3", &TextNodeTest<string_type, string_adaptor>::testPrecedingSibling3));
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suiteOfTests->addTest(new TestCaller<TextNodeTest<string_type, string_adaptor> >("testPrecedingSibling4", &TextNodeTest<string_type, string_adaptor>::testPrecedingSibling4));
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return suiteOfTests;
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} // TextNodeTest
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#endif
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