# coding: binary require_relative "rexml_test_utils" require "rexml/document" require "rexml/parseexception" require "rexml/formatters/default" module REXMLTests class ContribTester < Test::Unit::TestCase include REXMLTestUtils include REXML XML_STRING_01 = < Thomas, David; Hunt, Andrew english Addison-Wesley Programming Ruby. The Pragmatic Programmer's Guide 2000 Blammo, Blah english Hubbabubba Foozboozer's Life Book 2002 DELIMITER XML_STRING_02 = < english Addison-Wesley Programming Ruby. The Pragmatic Programmer's Guide Book 2000 Blammo, Blah english Hubbabubba Foozboozer's Life Book 2002 DELIMITER # Tobias Reif def test_bad_doctype_Tobias source = <<-EOF --> ' > ] > EOF doc = REXML::Document.new source doc.write(out="") assert(out[/>\'>/] != nil, "Couldn't find >'>") assert(out[/\]>/] != nil, "Couldn't find ]>") end # Peter Verhage def test_namespace_Peter source = <<-EOF EOF doc = REXML::Document.new source assert_equal "myprog-config", doc.root.name count = 0 REXML::XPath.each(doc, "x:myprog-config/x:main/x:parameter", {"x"=>"http://someurl/program/version"}) { |element| assert_equal "name", element.attributes["name"] count += 1; } assert_equal 1, count assert_equal "myprog-config", doc.elements["config:myprog-config"].name end # Tobias Reif def test_complex_xpath_Tobias source = <<-EOF EOF # elements that have child elements # but not grandchildren # and not children that don't have a style attribute # and not children that have a unique style attribute complex_path = "*[* "+ "and not(*/node()) "+ "and not(*[not(@style)]) "+ "and not(*/@style != */@style)]" doc = REXML::Document.new source results = REXML::XPath.match( doc.root, complex_path ) assert(results) assert_equal 1, results.size assert_equal "foo", results[0].name end # "Chris Morris" def test_extra_newline_on_read_Chris text = 'test text' e = REXML::Element.new('Test') e.add_text(text) REXML::Formatters::Default.new.write(e,out="") doc = REXML::Document.new(out) outtext = doc.root.text assert_equal(text, outtext) end # Tobias Reif def test_other_xpath_Tobias schema = <<-DELIM DELIM doc = REXML::Document.new schema result = REXML::XPath.first(doc.root, 'xs:element[descendant::xs:element[@ref]]') assert result assert_equal "svg", result.attributes['name'] result = REXML::XPath.first(doc, 'element[descendant::element[@ref]]') assert_nil result end #this first test succeeds, to check if stuff is set up correctly def test_xpath_01_TobiasReif doc = Document.new XML_STRING_01.dup desired_result = Document.new 'Thomas, David; Hunt, Andrew' xpath = '//author' result = XPath.first(doc, xpath) assert_equal desired_result.to_s, result.to_s end def test_xpath_whitespace_TobiasReif # same as above, with whitespace in XPath doc = Document.new(XML_STRING_01.dup) desired_result = Document.new('Thomas, David; Hunt, Andrew') xpath = "\/\/author\n \n" result = XPath.first(doc, xpath) failure_message = "\n[[[TR: AFAIK, whitespace should be allowed]]]\n" assert_equal(desired_result.to_s, result.to_s, failure_message) end def test_xpath_02_TobiasReif doc = Document.new XML_STRING_01.dup desired_result = Document.new 'Thomas, David; Hunt, Andrew' # Could that quirky # Programmer',"'",'s # be handled automatically, somehow? # Or is there a simpler way? (the below XPath should match the author element above, # AFAIK; I tested it inside an XSLT) xpath = %q{/biblio/entry[ title/text()=concat('Programming Ruby. The Pragmatic Programmer',"'",'s Guide') and year='2000' ]/author} result = XPath.first(doc, xpath) failure_message = "\nHow to handle the apos inside the string inside the XPath?\nXPath = #{xpath}\n" assert_equal desired_result.to_s, result.to_s, failure_message end def test_xpath_03_TobiasReif doc = Document.new XML_STRING_02.dup desired_result_string = " english Addison-Wesley Programming Ruby. The Pragmatic Programmer's Guide Book 2000 " Document.new desired_result_string xpath = "/biblio/entry[not(author)]" result = XPath.first(doc, xpath) assert_equal desired_result_string, result.to_s end def test_umlaut koln_iso = "K\xf6ln" koln_utf = "K\xc3\xb6ln" source_iso = "#{koln_iso}" source_utf = "#{koln_utf}" if String.method_defined? :encode koln_iso.force_encoding('iso-8859-1') koln_utf.force_encoding('utf-8') source_iso.force_encoding('iso-8859-1') source_utf.force_encoding('utf-8') end doc = REXML::Document.new(source_iso) assert_equal('ISO-8859-1', doc.xml_decl.encoding) assert_equal(koln_utf, doc.root.text) doc.write(out="") assert_equal(source_iso, out ) doc.xml_decl.encoding = 'UTF-8' doc.write(out="") assert_equal(source_utf, out) doc = Document.new <<-EOF Technik Technik Die Technik ist das R\xFCckgrat der meisten Gesch\xFCftsprozesse bei Home of the Brave. Deshalb sollen hier alle relevanten technischen Abl\xFCufe, Daten und Einrichtungen beschrieben werden, damit jeder im Bedarfsfall die n\xFCtigen Informationen, Anweisungen und Verhaltensempfehlungen nachlesen und/oder abrufen kann. Flash N\xFCtzliches von Flashern f\xFCr Flasher. CVS-FAQ FAQ zur Benutzung von CVS bei HOB EOF tn = XPath.first(doc, "//nebenspalte/text()[2]") expected_iso = "N\xFCtzliches von Flashern f\xFCr Flasher." expected_utf = expected_iso.unpack('C*').pack('U*') expected_iso.force_encoding(::Encoding::ISO_8859_1) expected_utf.force_encoding(::Encoding::UTF_8) assert_equal(expected_utf, tn.to_s.strip) f = REXML::Formatters::Default.new f.write( tn, Output.new(o = "", "ISO-8859-1") ) assert_equal(expected_iso, o.strip) doc = Document.new File.new(fixture_path('xmlfile-bug.xml')) tn = XPath.first(doc, "//nebenspalte/text()[2]") assert_equal(expected_utf, tn.to_s.strip) f.write( tn, Output.new(o = "", "ISO-8859-1") ) assert_equal(expected_iso, o.strip) end def test_element_cloning_namespace_Chris aDoc = REXML::Document.new '

Dummy title

' anElement = anElement = aDoc.elements[1] elementAttrPrefix = anElement.attributes.get_attribute('content').prefix aClone = anElement.clone cloneAttrPrefix = aClone.attributes.get_attribute('content').prefix assert_equal( elementAttrPrefix , cloneAttrPrefix ) end def test_namespaces_in_attlist_tobias in_string = File.open(fixture_path('foo.xml'), 'r') do |file| file.read end doc = Document.new in_string assert_nil XPath.first(doc,'//leg') assert_equal 'http://www.foo.com/human', doc.root.elements[1].namespace assert_equal 'human leg', XPath.first(doc, '//x:leg/text()', {'x'=>'http://www.foo.com/human'}).to_s end # Alun ap Rhisiart def test_less_than_in_element_content source = File.new(fixture_path('ProductionSupport.xml')) h = Hash.new doc = REXML::Document.new source doc.elements.each("//CommonError") { |el| h[el.elements['Key'].text] = 'okay' } assert(h.include?('MotorInsuranceContract(Object)>>#error:')) end # XPaths provided by Thomas Sawyer def test_various_xpath #@doc = REXML::Document.new('

') doc = REXML::Document.new('

3

') [['/r', REXML::Element], ['/r/p/c', REXML::Element], ['/r/attribute::a', Attribute], ['/r/@a', Attribute], ['/r/attribute::*', Attribute], ['/r/@*', Attribute], ['/r/p/c/attribute::b', Attribute], ['/r/p/c/@b', Attribute], ['/r/p/c/attribute::*', Attribute], ['/r/p/c/@*', Attribute], ['//c/attribute::b', Attribute], ['//c/@b', Attribute], ['//c/attribute::*', Attribute], ['//c/@*', Attribute], ['.//node()', REXML::Node ], ['.//node()[@a]', REXML::Element ], ['.//node()[@a="1"]', REXML::Element ], ['.//node()[@b]', REXML::Element ], # no show, why? ['.//node()[@b="2"]', REXML::Element ] ].each do |xpath,kind| begin REXML::XPath.each( doc, xpath ) do |what| assert_kind_of( kind, what, "\n\nWrong type (#{what.class}) returned for #{xpath} (expected #{kind.name})\n\n" ) end rescue Exception puts "PATH WAS: #{xpath}" raise end end [ ['/r', 'attribute::a', Attribute ], ['/r', '@a', Attribute ], ['/r', 'attribute::*', Attribute ], ['/r', '@*', Attribute ], ['/r/p/c', 'attribute::b', Attribute ], ['/r/p/c', '@b', Attribute ], ['/r/p/c', 'attribute::*', Attribute ], ['/r/p/c', '@*', Attribute ] ].each do |nodepath, xpath, kind| begin context = REXML::XPath.first(doc, nodepath) REXML::XPath.each( context, xpath ) do |what| assert_kind_of kind, what, "Wrong type (#{what.class}) returned for #{xpath} (expected #{kind.name})\n" end rescue Exception puts "PATH WAS: #{xpath}" raise end end end def test_entities_Holden_Glova document = <<-EOL ]> uga.rb 0444 &rbconfig.libdir;/rexml ... the file here booga.h 0444 &rbconfig.includedir; ... the file here foo.so 0555 &rbconfig.sitearchdir;/rexml Li4uIHRoZSBmaWxlIGhlcmU=\n EOL file_xpath = '/rubynet/pkg/files/file' root = REXML::Document.new(document) root.elements.each(file_xpath) do |metadata| text = metadata.elements['path'].get_text.value assert text !~ /&rbconfig/, "'#{text}' failed" end #Error occurred in test_package_file_opens(TC_PackageInstall): # ArgumentError: #illegal access mode &rbconfig.prefix;/lib/rexml # #[synack@Evergreen] src $ ruby --version #ruby 1.6.7 (2002-03-01) [i686-linux-gnu] # #It looks like it expanded the first entity, but didn't reparse it for more #entities. possible bug - or have I mucked this up? end def test_whitespace_after_xml_decl Document.new < EOL end def test_external_entity xp = '//channel/title' %w{working.rss broken.rss}.each do |path| File.open(File.join(fixture_path(path))) do |file| doc = REXML::Document.new file.readlines.join('') # check to make sure everything is kosher assert_equal( doc.root.class, REXML::Element ) assert_equal( doc.root.elements.class, REXML::Elements ) # get the title of the feed assert( doc.root.elements[xp].kind_of?( REXML::Element ) ) end end end def test_maintain_dtd src = %q{ %extern-packages; %extern-common; ]>} doc = Document.new( src ) doc.write( out="" ) src = src.tr('"', "'") out = out.tr('"', "'") assert_equal( src, out ) end def test_text_nodes_nomatch source = "test" d = REXML::Document.new( source ) r = REXML::XPath.match( d, %q{/root/child[text()="no-test"]} ) assert_equal( 0, r.size ) end def test_raw_Terje_Elde f = REXML::Formatters::Default.new txt = 'abcødef' a = Text.new( txt,false,nil,true ) f.write(a,out="") assert_equal( txt, out ) txt = 'abcødef' a = Document.new( txt, { :raw => ["russell"] } ) f.write(a,out="") assert_equal( txt, out ) end def test_indenting_error a=Element.new("test1") b=Element.new("test2") c=Element.new("test3") b << c a << b REXML::Formatters::Pretty.new.write(a,"") end def test_pos require 'tempfile' Tempfile.create("tidal") {|testfile| testdata = %Q{
760 50
} testfile.puts testdata testfile.rewind assert_nothing_raised do REXML::Document.new(testfile) end } end def test_deep_clone a = Document.new( '' ) b = a.deep_clone assert_equal a.to_s, b.to_s end def test_double_escaping data = 'AT&T' xml = "" doc = REXML::Document.new(xml) description = doc.find {|e| e.name=="description"} assert_equal data, description.text end def test_ticket_12 cfg = "ab" config = REXML::Document.new( cfg ) assert_equal( "a", config.elements[ "//child1" ].text ) end =begin # This is a silly test, and is low priority def test_namespace_serialization_tobi_reif doc = Document.new ' ' ns = 'http://www.foo.foo' ns_declaration={'f'=>ns} returned = XPath.match(doc,'//f:p',ns_declaration) # passes: assert( (returned[0].namespace==ns), 'namespace should be '+ns) serialized = returned.to_s serialized_and_parsed = Document.new(serialized) puts 'serialized: '+serialized # ... currently brings # prefix b is undeclared (!) assert( (serialized_and_parsed.namespace==ns), 'namespace should still be '+ns.inspect+ ' and not '+serialized_and_parsed.namespace.inspect) # ... currently results in a failure: # 'namespace should still be "http://www.foo.foo" and not ""' end =end end end