/* Test program for TinyXML. */ #ifdef TIXML_USE_STL #include #include using namespace std; #else #include #endif #if defined( WIN32 ) && defined( TUNE ) #include _CrtMemState startMemState; _CrtMemState endMemState; #endif #include "tinyxml.h" bool XmlTest (const char* testString, const char* expected, const char* found, bool noEcho = false); bool XmlTest( const char* testString, int expected, int found, bool noEcho = false ); static int gPass = 0; static int gFail = 0; bool XmlTest (const char* testString, const char* expected, const char* found, bool noEcho ) { bool pass = !strcmp( expected, found ); if ( pass ) printf ("[pass]"); else printf ("[fail]"); if ( noEcho ) printf (" %s\n", testString); else printf (" %s [%s][%s]\n", testString, expected, found); if ( pass ) ++gPass; else ++gFail; return pass; } bool XmlTest( const char* testString, int expected, int found, bool noEcho ) { bool pass = ( expected == found ); if ( pass ) printf ("[pass]"); else printf ("[fail]"); if ( noEcho ) printf (" %s\n", testString); else printf (" %s [%d][%d]\n", testString, expected, found); if ( pass ) ++gPass; else ++gFail; return pass; } // // This file demonstrates some basic functionality of TinyXml. // Note that the example is very contrived. It presumes you know // what is in the XML file. But it does test the basic operations, // and show how to add and remove nodes. // int main() { // // We start with the 'demoStart' todo list. Process it. And // should hopefully end up with the todo list as illustrated. // const char* demoStart = "\n" "" "\n" "\n" " Go to the Toy store!" " Do bills " " Look for Evil Dinosaurs! " ""; { #ifdef TIXML_USE_STL // What the todo list should look like after processing. // In stream (no formatting) representation. const char* demoEnd = "" "" "" "" "Go to the" "Toy store!" "" "" "Talk to:" "" "" "" "" "" "" "Do bills" "" ""; #endif // The example parses from the character string (above): #if defined( WIN32 ) && defined( TUNE ) _CrtMemCheckpoint( &startMemState ); #endif { // Write to a file and read it back, to check file I/O. TiXmlDocument doc( "demotest.xml" ); doc.Parse( demoStart ); if ( doc.Error() ) { printf( "Error in %s: %s\n", doc.Value(), doc.ErrorDesc() ); exit( 1 ); } doc.SaveFile(); } TiXmlDocument doc( "demotest.xml" ); bool loadOkay = doc.LoadFile(); if ( !loadOkay ) { printf( "Could not load test file 'demotest.xml'. Error='%s'. Exiting.\n", doc.ErrorDesc() ); exit( 1 ); } printf( "** Demo doc read from disk: ** \n\n" ); printf( "** Printing via doc.Print **\n" ); doc.Print( stdout ); { printf( "** Printing via TiXmlPrinter **\n" ); TiXmlPrinter printer; doc.Accept( &printer ); fprintf( stdout, "%s", printer.CStr() ); } #ifdef TIXML_USE_STL { printf( "** Printing via operator<< **\n" ); std::cout << doc; } #endif TiXmlNode* node = 0; TiXmlElement* todoElement = 0; TiXmlElement* itemElement = 0; // -------------------------------------------------------- // An example of changing existing attributes, and removing // an element from the document. // -------------------------------------------------------- // Get the "ToDo" element. // It is a child of the document, and can be selected by name. node = doc.FirstChild( "ToDo" ); assert( node ); todoElement = node->ToElement(); assert( todoElement ); // Going to the toy store is now our second priority... // So set the "priority" attribute of the first item in the list. node = todoElement->FirstChildElement(); // This skips the "PDA" comment. assert( node ); itemElement = node->ToElement(); assert( itemElement ); itemElement->SetAttribute( "priority", 2 ); // Change the distance to "doing bills" from // "none" to "here". It's the next sibling element. itemElement = itemElement->NextSiblingElement(); assert( itemElement ); itemElement->SetAttribute( "distance", "here" ); // Remove the "Look for Evil Dinosaurs!" item. // It is 1 more sibling away. We ask the parent to remove // a particular child. itemElement = itemElement->NextSiblingElement(); todoElement->RemoveChild( itemElement ); itemElement = 0; // -------------------------------------------------------- // What follows is an example of created elements and text // nodes and adding them to the document. // -------------------------------------------------------- // Add some meetings. TiXmlElement item( "Item" ); item.SetAttribute( "priority", "1" ); item.SetAttribute( "distance", "far" ); TiXmlText text( "Talk to:" ); TiXmlElement meeting1( "Meeting" ); meeting1.SetAttribute( "where", "School" ); TiXmlElement meeting2( "Meeting" ); meeting2.SetAttribute( "where", "Lunch" ); TiXmlElement attendee1( "Attendee" ); attendee1.SetAttribute( "name", "Marple" ); attendee1.SetAttribute( "position", "teacher" ); TiXmlElement attendee2( "Attendee" ); attendee2.SetAttribute( "name", "Voel" ); attendee2.SetAttribute( "position", "counselor" ); // Assemble the nodes we've created: meeting1.InsertEndChild( attendee1 ); meeting1.InsertEndChild( attendee2 ); item.InsertEndChild( text ); item.InsertEndChild( meeting1 ); item.InsertEndChild( meeting2 ); // And add the node to the existing list after the first child. node = todoElement->FirstChild( "Item" ); assert( node ); itemElement = node->ToElement(); assert( itemElement ); todoElement->InsertAfterChild( itemElement, item ); printf( "\n** Demo doc processed: ** \n\n" ); doc.Print( stdout ); #ifdef TIXML_USE_STL printf( "** Demo doc processed to stream: ** \n\n" ); cout << doc << endl << endl; #endif // -------------------------------------------------------- // Different tests...do we have what we expect? // -------------------------------------------------------- int count = 0; TiXmlElement* element; ////////////////////////////////////////////////////// #ifdef TIXML_USE_STL cout << "** Basic structure. **\n"; ostringstream outputStream( ostringstream::out ); outputStream << doc; XmlTest( "Output stream correct.", string( demoEnd ).c_str(), outputStream.str().c_str(), true ); #endif node = doc.RootElement(); assert( node ); XmlTest( "Root element exists.", true, ( node != 0 && node->ToElement() ) ); XmlTest ( "Root element value is 'ToDo'.", "ToDo", node->Value()); node = node->FirstChild(); XmlTest( "First child exists & is a comment.", true, ( node != 0 && node->ToComment() ) ); node = node->NextSibling(); XmlTest( "Sibling element exists & is an element.", true, ( node != 0 && node->ToElement() ) ); XmlTest ( "Value is 'Item'.", "Item", node->Value() ); node = node->FirstChild(); XmlTest ( "First child exists.", true, ( node != 0 && node->ToText() ) ); XmlTest ( "Value is 'Go to the'.", "Go to the", node->Value() ); ////////////////////////////////////////////////////// printf ("\n** Iterators. **\n"); // Walk all the top level nodes of the document. count = 0; for( node = doc.FirstChild(); node; node = node->NextSibling() ) { count++; } XmlTest( "Top level nodes, using First / Next.", 3, count ); count = 0; for( node = doc.LastChild(); node; node = node->PreviousSibling() ) { count++; } XmlTest( "Top level nodes, using Last / Previous.", 3, count ); // Walk all the top level nodes of the document, // using a different syntax. count = 0; for( node = doc.IterateChildren( 0 ); node; node = doc.IterateChildren( node ) ) { count++; } XmlTest( "Top level nodes, using IterateChildren.", 3, count ); // Walk all the elements in a node. count = 0; for( element = todoElement->FirstChildElement(); element; element = element->NextSiblingElement() ) { count++; } XmlTest( "Children of the 'ToDo' element, using First / Next.", 3, count ); // Walk all the elements in a node by value. count = 0; for( node = todoElement->FirstChild( "Item" ); node; node = node->NextSibling( "Item" ) ) { count++; } XmlTest( "'Item' children of the 'ToDo' element, using First/Next.", 3, count ); count = 0; for( node = todoElement->LastChild( "Item" ); node; node = node->PreviousSibling( "Item" ) ) { count++; } XmlTest( "'Item' children of the 'ToDo' element, using Last/Previous.", 3, count ); #ifdef TIXML_USE_STL { cout << "\n** Parsing. **\n"; istringstream parse0( "" ); TiXmlElement element0( "default" ); parse0 >> element0; XmlTest ( "Element parsed, value is 'Element0'.", "Element0", element0.Value() ); XmlTest ( "Reads attribute 'attribute0=\"foo0\"'.", "foo0", element0.Attribute( "attribute0" )); XmlTest ( "Reads incorrectly formatted 'attribute1=noquotes'.", "noquotes", element0.Attribute( "attribute1" ) ); XmlTest ( "Read attribute with entity value '>'.", ">", element0.Attribute( "attribute2" ) ); } #endif { const char* error = "\n" "\n" " \n" ""; TiXmlDocument docTest; docTest.Parse( error ); XmlTest( "Error row", docTest.ErrorRow(), 3 ); XmlTest( "Error column", docTest.ErrorCol(), 17 ); //printf( "error=%d id='%s' row %d col%d\n", (int) doc.Error(), doc.ErrorDesc(), doc.ErrorRow()+1, doc.ErrorCol() + 1 ); } #ifdef TIXML_USE_STL { ////////////////////////////////////////////////////// cout << "\n** Streaming. **\n"; // Round trip check: stream in, then stream back out to verify. The stream // out has already been checked, above. We use the output istringstream inputStringStream( outputStream.str() ); TiXmlDocument document0; inputStringStream >> document0; ostringstream outputStream0( ostringstream::out ); outputStream0 << document0; XmlTest( "Stream round trip correct.", string( demoEnd ).c_str(), outputStream0.str().c_str(), true ); std::string str; str << document0; XmlTest( "String printing correct.", string( demoEnd ).c_str(), str.c_str(), true ); } #endif } { const char* str = ""; TiXmlDocument doc; doc.Parse( str ); TiXmlElement* ele = doc.FirstChildElement(); int iVal, result; double dVal; result = ele->QueryDoubleAttribute( "attr0", &dVal ); XmlTest( "Query attribute: int as double", result, TIXML_SUCCESS ); XmlTest( "Query attribute: int as double", (int)dVal, 1 ); result = ele->QueryDoubleAttribute( "attr1", &dVal ); XmlTest( "Query attribute: double as double", (int)dVal, 2 ); result = ele->QueryIntAttribute( "attr1", &iVal ); XmlTest( "Query attribute: double as int", result, TIXML_SUCCESS ); XmlTest( "Query attribute: double as int", iVal, 2 ); result = ele->QueryIntAttribute( "attr2", &iVal ); XmlTest( "Query attribute: not a number", result, TIXML_WRONG_TYPE ); result = ele->QueryIntAttribute( "bar", &iVal ); XmlTest( "Query attribute: does not exist", result, TIXML_NO_ATTRIBUTE ); } { const char* str = ""; TiXmlDocument doc; doc.Parse( str ); TiXmlElement* ele = doc.FirstChildElement(); int iVal; double dVal; ele->SetAttribute( "str", "strValue" ); ele->SetAttribute( "int", 1 ); ele->SetDoubleAttribute( "double", -1.0 ); const char* cStr = ele->Attribute( "str" ); ele->QueryIntAttribute( "int", &iVal ); ele->QueryDoubleAttribute( "double", &dVal ); XmlTest( "Attribute round trip. c-string.", "strValue", cStr ); XmlTest( "Attribute round trip. int.", 1, iVal ); XmlTest( "Attribute round trip. double.", -1, (int)dVal ); } { const char* str = "\t\t\n" ""; TiXmlDocument doc; doc.SetTabSize( 8 ); doc.Parse( str ); TiXmlHandle docHandle( &doc ); TiXmlHandle roomHandle = docHandle.FirstChildElement( "room" ); assert( docHandle.Node() ); assert( roomHandle.Element() ); TiXmlElement* room = roomHandle.Element(); assert( room ); TiXmlAttribute* doors = room->FirstAttribute(); assert( doors ); XmlTest( "Location tracking: Tab 8: room row", room->Row(), 1 ); XmlTest( "Location tracking: Tab 8: room col", room->Column(), 49 ); XmlTest( "Location tracking: Tab 8: doors row", doors->Row(), 1 ); XmlTest( "Location tracking: Tab 8: doors col", doors->Column(), 55 ); } { const char* str = "\t\t\n" " \n" " A great door!\n" "\t" ""; TiXmlDocument doc; doc.Parse( str ); TiXmlHandle docHandle( &doc ); TiXmlHandle roomHandle = docHandle.FirstChildElement( "room" ); TiXmlHandle commentHandle = docHandle.FirstChildElement( "room" ).FirstChild(); TiXmlHandle textHandle = docHandle.FirstChildElement( "room" ).ChildElement( "door", 0 ).FirstChild(); TiXmlHandle door0Handle = docHandle.FirstChildElement( "room" ).ChildElement( 0 ); TiXmlHandle door1Handle = docHandle.FirstChildElement( "room" ).ChildElement( 1 ); assert( docHandle.Node() ); assert( roomHandle.Element() ); assert( commentHandle.Node() ); assert( textHandle.Text() ); assert( door0Handle.Element() ); assert( door1Handle.Element() ); TiXmlDeclaration* declaration = doc.FirstChild()->ToDeclaration(); assert( declaration ); TiXmlElement* room = roomHandle.Element(); assert( room ); TiXmlAttribute* doors = room->FirstAttribute(); assert( doors ); TiXmlText* text = textHandle.Text(); TiXmlComment* comment = commentHandle.Node()->ToComment(); assert( comment ); TiXmlElement* door0 = door0Handle.Element(); TiXmlElement* door1 = door1Handle.Element(); XmlTest( "Location tracking: Declaration row", declaration->Row(), 1 ); XmlTest( "Location tracking: Declaration col", declaration->Column(), 5 ); XmlTest( "Location tracking: room row", room->Row(), 1 ); XmlTest( "Location tracking: room col", room->Column(), 45 ); XmlTest( "Location tracking: doors row", doors->Row(), 1 ); XmlTest( "Location tracking: doors col", doors->Column(), 51 ); XmlTest( "Location tracking: Comment row", comment->Row(), 2 ); XmlTest( "Location tracking: Comment col", comment->Column(), 3 ); XmlTest( "Location tracking: text row", text->Row(), 3 ); XmlTest( "Location tracking: text col", text->Column(), 24 ); XmlTest( "Location tracking: door0 row", door0->Row(), 3 ); XmlTest( "Location tracking: door0 col", door0->Column(), 5 ); XmlTest( "Location tracking: door1 row", door1->Row(), 4 ); XmlTest( "Location tracking: door1 col", door1->Column(), 5 ); } // -------------------------------------------------------- // UTF-8 testing. It is important to test: // 1. Making sure name, value, and text read correctly // 2. Row, Col functionality // 3. Correct output // -------------------------------------------------------- printf ("\n** UTF-8 **\n"); { TiXmlDocument doc( "utf8test.xml" ); doc.LoadFile(); if ( doc.Error() && doc.ErrorId() == TiXmlBase::TIXML_ERROR_OPENING_FILE ) { printf( "WARNING: File 'utf8test.xml' not found.\n" "(Are you running the test from the wrong directory?)\n" "Could not test UTF-8 functionality.\n" ); } else { TiXmlHandle docH( &doc ); // Get the attribute "value" from the "Russian" element and check it. TiXmlElement* element = docH.FirstChildElement( "document" ).FirstChildElement( "Russian" ).Element(); const unsigned char correctValue[] = { 0xd1U, 0x86U, 0xd0U, 0xb5U, 0xd0U, 0xbdU, 0xd0U, 0xbdU, 0xd0U, 0xbeU, 0xd1U, 0x81U, 0xd1U, 0x82U, 0xd1U, 0x8cU, 0 }; XmlTest( "UTF-8: Russian value.", (const char*)correctValue, element->Attribute( "value" ), true ); XmlTest( "UTF-8: Russian value row.", 4, element->Row() ); XmlTest( "UTF-8: Russian value column.", 5, element->Column() ); const unsigned char russianElementName[] = { 0xd0U, 0xa0U, 0xd1U, 0x83U, 0xd1U, 0x81U, 0xd1U, 0x81U, 0xd0U, 0xbaU, 0xd0U, 0xb8U, 0xd0U, 0xb9U, 0 }; const char russianText[] = "<\xD0\xB8\xD0\xBC\xD0\xB5\xD0\xB5\xD1\x82>"; TiXmlText* text = docH.FirstChildElement( "document" ).FirstChildElement( (const char*) russianElementName ).Child( 0 ).Text(); XmlTest( "UTF-8: Browsing russian element name.", russianText, text->Value(), true ); XmlTest( "UTF-8: Russian element name row.", 7, text->Row() ); XmlTest( "UTF-8: Russian element name column.", 47, text->Column() ); TiXmlDeclaration* dec = docH.Child( 0 ).Node()->ToDeclaration(); XmlTest( "UTF-8: Declaration column.", 1, dec->Column() ); XmlTest( "UTF-8: Document column.", 1, doc.Column() ); // Now try for a round trip. doc.SaveFile( "utf8testout.xml" ); // Check the round trip. char savedBuf[256]; char verifyBuf[256]; int okay = 1; FILE* saved = fopen( "utf8testout.xml", "r" ); FILE* verify = fopen( "utf8testverify.xml", "r" ); if ( saved && verify ) { while ( fgets( verifyBuf, 256, verify ) ) { fgets( savedBuf, 256, saved ); if ( strcmp( verifyBuf, savedBuf ) ) { okay = 0; break; } } fclose( saved ); fclose( verify ); } XmlTest( "UTF-8: Verified multi-language round trip.", 1, okay ); // On most Western machines, this is an element that contains // the word "resume" with the correct accents, in a latin encoding. // It will be something else completely on non-wester machines, // which is why TinyXml is switching to UTF-8. const char latin[] = "r\x82sum\x82"; TiXmlDocument latinDoc; latinDoc.Parse( latin, 0, TIXML_ENCODING_LEGACY ); text = latinDoc.FirstChildElement()->FirstChild()->ToText(); XmlTest( "Legacy encoding: Verify text element.", "r\x82sum\x82", text->Value() ); } } ////////////////////// // Copy and assignment ////////////////////// printf ("\n** Copy and Assignment **\n"); { TiXmlElement element( "foo" ); element.Parse( "", 0, TIXML_ENCODING_UNKNOWN ); TiXmlElement elementCopy( element ); TiXmlElement elementAssign( "foo" ); elementAssign.Parse( "", 0, TIXML_ENCODING_UNKNOWN ); elementAssign = element; XmlTest( "Copy/Assign: element copy #1.", "element", elementCopy.Value() ); XmlTest( "Copy/Assign: element copy #2.", "value", elementCopy.Attribute( "name" ) ); XmlTest( "Copy/Assign: element assign #1.", "element", elementAssign.Value() ); XmlTest( "Copy/Assign: element assign #2.", "value", elementAssign.Attribute( "name" ) ); XmlTest( "Copy/Assign: element assign #3.", true, ( 0 == elementAssign.Attribute( "foo" )) ); TiXmlComment comment; comment.Parse( "", 0, TIXML_ENCODING_UNKNOWN ); TiXmlComment commentCopy( comment ); TiXmlComment commentAssign; commentAssign = commentCopy; XmlTest( "Copy/Assign: comment copy.", "comment", commentCopy.Value() ); XmlTest( "Copy/Assign: comment assign.", "comment", commentAssign.Value() ); TiXmlUnknown unknown; unknown.Parse( "<[unknown]>", 0, TIXML_ENCODING_UNKNOWN ); TiXmlUnknown unknownCopy( unknown ); TiXmlUnknown unknownAssign; unknownAssign.Parse( "incorrect", 0, TIXML_ENCODING_UNKNOWN ); unknownAssign = unknownCopy; XmlTest( "Copy/Assign: unknown copy.", "[unknown]", unknownCopy.Value() ); XmlTest( "Copy/Assign: unknown assign.", "[unknown]", unknownAssign.Value() ); TiXmlText text( "TextNode" ); TiXmlText textCopy( text ); TiXmlText textAssign( "incorrect" ); textAssign = text; XmlTest( "Copy/Assign: text copy.", "TextNode", textCopy.Value() ); XmlTest( "Copy/Assign: text assign.", "TextNode", textAssign.Value() ); TiXmlDeclaration dec; dec.Parse( "", 0, TIXML_ENCODING_UNKNOWN ); TiXmlDeclaration decCopy( dec ); TiXmlDeclaration decAssign; decAssign = dec; XmlTest( "Copy/Assign: declaration copy.", "UTF-8", decCopy.Encoding() ); XmlTest( "Copy/Assign: text assign.", "UTF-8", decAssign.Encoding() ); TiXmlDocument doc; elementCopy.InsertEndChild( textCopy ); doc.InsertEndChild( decAssign ); doc.InsertEndChild( elementCopy ); doc.InsertEndChild( unknownAssign ); TiXmlDocument docCopy( doc ); TiXmlDocument docAssign; docAssign = docCopy; #ifdef TIXML_USE_STL std::string original, copy, assign; original << doc; copy << docCopy; assign << docAssign; XmlTest( "Copy/Assign: document copy.", original.c_str(), copy.c_str(), true ); XmlTest( "Copy/Assign: document assign.", original.c_str(), assign.c_str(), true ); #endif } ////////////////////////////////////////////////////// #ifdef TIXML_USE_STL printf ("\n** Parsing, no Condense Whitespace **\n"); TiXmlBase::SetCondenseWhiteSpace( false ); { istringstream parse1( "This is \ntext" ); TiXmlElement text1( "text" ); parse1 >> text1; XmlTest ( "Condense white space OFF.", "This is \ntext", text1.FirstChild()->Value(), true ); } TiXmlBase::SetCondenseWhiteSpace( true ); #endif ////////////////////////////////////////////////////// // GetText(); { const char* str = "This is text"; TiXmlDocument doc; doc.Parse( str ); const TiXmlElement* element = doc.RootElement(); XmlTest( "GetText() normal use.", "This is text", element->GetText() ); str = "This is text"; doc.Clear(); doc.Parse( str ); element = doc.RootElement(); XmlTest( "GetText() contained element.", element->GetText() == 0, true ); str = "This is text"; doc.Clear(); TiXmlBase::SetCondenseWhiteSpace( false ); doc.Parse( str ); TiXmlBase::SetCondenseWhiteSpace( true ); element = doc.RootElement(); XmlTest( "GetText() partial.", "This is ", element->GetText() ); } ////////////////////////////////////////////////////// // CDATA { const char* str = "" " the rules!\n" "...since I make symbolic puns" "]]>" ""; TiXmlDocument doc; doc.Parse( str ); doc.Print(); XmlTest( "CDATA parse.", doc.FirstChildElement()->FirstChild()->Value(), "I am > the rules!\n...since I make symbolic puns", true ); #ifdef TIXML_USE_STL //cout << doc << '\n'; doc.Clear(); istringstream parse0( str ); parse0 >> doc; //cout << doc << '\n'; XmlTest( "CDATA stream.", doc.FirstChildElement()->FirstChild()->Value(), "I am > the rules!\n...since I make symbolic puns", true ); #endif TiXmlDocument doc1 = doc; //doc.Print(); XmlTest( "CDATA copy.", doc1.FirstChildElement()->FirstChild()->Value(), "I am > the rules!\n...since I make symbolic puns", true ); } { // [ 1482728 ] Wrong wide char parsing char buf[256]; buf[255] = 0; for( int i=0; i<255; ++i ) { buf[i] = (char)((i>=32) ? i : 32); } TIXML_STRING str( ""; TiXmlDocument doc; doc.Parse( str.c_str() ); TiXmlPrinter printer; printer.SetStreamPrinting(); doc.Accept( &printer ); XmlTest( "CDATA with all bytes #1.", str.c_str(), printer.CStr(), true ); #ifdef TIXML_USE_STL doc.Clear(); istringstream iss( printer.Str() ); iss >> doc; std::string out; out << doc; XmlTest( "CDATA with all bytes #2.", out.c_str(), printer.CStr(), true ); #endif } { // [ 1480107 ] Bug-fix for STL-streaming of CDATA that contains tags // CDATA streaming had a couple of bugs, that this tests for. const char* str = "" "I am > the rules!\n" "...since I make symbolic puns" "]]>" ""; TiXmlDocument doc; doc.Parse( str ); doc.Print(); XmlTest( "CDATA parse. [ 1480107 ]", doc.FirstChildElement()->FirstChild()->Value(), "I am > the rules!\n...since I make symbolic puns", true ); #ifdef TIXML_USE_STL doc.Clear(); istringstream parse0( str ); parse0 >> doc; XmlTest( "CDATA stream. [ 1480107 ]", doc.FirstChildElement()->FirstChild()->Value(), "I am > the rules!\n...since I make symbolic puns", true ); #endif TiXmlDocument doc1 = doc; //doc.Print(); XmlTest( "CDATA copy. [ 1480107 ]", doc1.FirstChildElement()->FirstChild()->Value(), "I am > the rules!\n...since I make symbolic puns", true ); } ////////////////////////////////////////////////////// // Visit() ////////////////////////////////////////////////////// printf( "\n** Fuzzing... **\n" ); const int FUZZ_ITERATION = 300; // The only goal is not to crash on bad input. int len = (int) strlen( demoStart ); for( int i=0; i" "" " " ""; TiXmlDocument doc( "passages.xml" ); doc.Parse( passages ); TiXmlElement* psg = doc.RootElement()->FirstChildElement(); const char* context = psg->Attribute( "context" ); const char* expected = "Line 5 has \"quotation marks\" and 'apostrophe marks'. It also has <, >, and &, as well as a fake copyright \xC2\xA9."; XmlTest( "Entity transformation: read. ", expected, context, true ); FILE* textfile = fopen( "textfile.txt", "w" ); if ( textfile ) { psg->Print( textfile, 0 ); fclose( textfile ); } textfile = fopen( "textfile.txt", "r" ); assert( textfile ); if ( textfile ) { char buf[ 1024 ]; fgets( buf, 1024, textfile ); XmlTest( "Entity transformation: write. ", "", buf, true ); } fclose( textfile ); } { FILE* textfile = fopen( "test5.xml", "w" ); if ( textfile ) { fputs("", textfile); fclose(textfile); TiXmlDocument doc; doc.LoadFile( "test5.xml" ); XmlTest( "dot in element attributes and names", doc.Error(), 0); } } { FILE* textfile = fopen( "test6.xml", "w" ); if ( textfile ) { fputs("1.1 Start easy ignore fin thickness ", textfile ); fclose(textfile); TiXmlDocument doc; bool result = doc.LoadFile( "test6.xml" ); XmlTest( "Entity with one digit.", result, true ); TiXmlText* text = doc.FirstChildElement()->FirstChildElement()->FirstChild()->ToText(); XmlTest( "Entity with one digit.", text->Value(), "1.1 Start easy ignore fin thickness\n" ); } } { // DOCTYPE not preserved (950171) // const char* doctype = "" "" "" "" ""; TiXmlDocument doc; doc.Parse( doctype ); doc.SaveFile( "test7.xml" ); doc.Clear(); doc.LoadFile( "test7.xml" ); TiXmlHandle docH( &doc ); TiXmlUnknown* unknown = docH.Child( 1 ).Unknown(); XmlTest( "Correct value of unknown.", "!DOCTYPE PLAY SYSTEM 'play.dtd'", unknown->Value() ); #ifdef TIXML_USE_STL TiXmlNode* node = docH.Child( 2 ).Node(); std::string str; str << (*node); XmlTest( "Correct streaming of unknown.", "", str.c_str() ); #endif } { // [ 791411 ] Formatting bug // Comments do not stream out correctly. const char* doctype = ""; TiXmlDocument doc; doc.Parse( doctype ); TiXmlHandle docH( &doc ); TiXmlComment* comment = docH.Child( 0 ).Node()->ToComment(); XmlTest( "Comment formatting.", " Somewhat ", comment->Value() ); #ifdef TIXML_USE_STL std::string str; str << (*comment); XmlTest( "Comment streaming.", "", str.c_str() ); #endif } { // [ 870502 ] White space issues TiXmlDocument doc; TiXmlText* text; TiXmlHandle docH( &doc ); const char* doctype0 = " This has leading and trailing space "; const char* doctype1 = "This has internal space"; const char* doctype2 = " This has leading, trailing, and internal space "; TiXmlBase::SetCondenseWhiteSpace( false ); doc.Clear(); doc.Parse( doctype0 ); text = docH.FirstChildElement( "element" ).Child( 0 ).Text(); XmlTest( "White space kept.", " This has leading and trailing space ", text->Value() ); doc.Clear(); doc.Parse( doctype1 ); text = docH.FirstChildElement( "element" ).Child( 0 ).Text(); XmlTest( "White space kept.", "This has internal space", text->Value() ); doc.Clear(); doc.Parse( doctype2 ); text = docH.FirstChildElement( "element" ).Child( 0 ).Text(); XmlTest( "White space kept.", " This has leading, trailing, and internal space ", text->Value() ); TiXmlBase::SetCondenseWhiteSpace( true ); doc.Clear(); doc.Parse( doctype0 ); text = docH.FirstChildElement( "element" ).Child( 0 ).Text(); XmlTest( "White space condensed.", "This has leading and trailing space", text->Value() ); doc.Clear(); doc.Parse( doctype1 ); text = docH.FirstChildElement( "element" ).Child( 0 ).Text(); XmlTest( "White space condensed.", "This has internal space", text->Value() ); doc.Clear(); doc.Parse( doctype2 ); text = docH.FirstChildElement( "element" ).Child( 0 ).Text(); XmlTest( "White space condensed.", "This has leading, trailing, and internal space", text->Value() ); } { // Double attributes const char* doctype = ""; TiXmlDocument doc; doc.Parse( doctype ); XmlTest( "Parsing repeated attributes.", true, doc.Error() ); // is an error to tinyxml (didn't use to be, but caused issues) //XmlTest( "Parsing repeated attributes.", "blue", doc.FirstChildElement( "element" )->Attribute( "attr" ) ); } { // Embedded null in stream. const char* doctype = ""; TiXmlDocument doc; doc.Parse( doctype ); XmlTest( "Embedded null throws error.", true, doc.Error() ); #ifdef TIXML_USE_STL istringstream strm( doctype ); doc.Clear(); doc.ClearError(); strm >> doc; XmlTest( "Embedded null throws error.", true, doc.Error() ); #endif } { // Legacy mode test. (This test may only pass on a western system) const char* str = "" "<ä>" "CöntäntßäöüÄÖÜ" ""; TiXmlDocument doc; doc.Parse( str ); TiXmlHandle docHandle( &doc ); TiXmlHandle aHandle = docHandle.FirstChildElement( "ä" ); TiXmlHandle tHandle = aHandle.Child( 0 ); assert( aHandle.Element() ); assert( tHandle.Text() ); XmlTest( "ISO-8859-1 Parsing.", "CöntäntßäöüÄÖÜ", tHandle.Text()->Value() ); } { // Empty documents should return TIXML_ERROR_PARSING_EMPTY, bug 1070717 const char* str = " "; TiXmlDocument doc; doc.Parse( str ); XmlTest( "Empty document error TIXML_ERROR_DOCUMENT_EMPTY", TiXmlBase::TIXML_ERROR_DOCUMENT_EMPTY, doc.ErrorId() ); } #ifndef TIXML_USE_STL { // String equality. [ 1006409 ] string operator==/!= no worky in all cases TiXmlString temp; XmlTest( "Empty tinyxml string compare equal", ( temp == "" ), true ); TiXmlString foo; TiXmlString bar( "" ); XmlTest( "Empty tinyxml string compare equal", ( foo == bar ), true ); } #endif { // Bug [ 1195696 ] from marlonism TiXmlBase::SetCondenseWhiteSpace(false); TiXmlDocument xml; xml.Parse("This hangs"); XmlTest( "Test safe error return.", xml.Error(), false ); } { // Bug [ 1243992 ] - another infinite loop TiXmlDocument doc; doc.SetCondenseWhiteSpace(false); doc.Parse("

test

"); } { // Low entities TiXmlDocument xml; xml.Parse( "" ); const char result[] = { 0x0e, 0 }; XmlTest( "Low entities.", xml.FirstChildElement()->GetText(), result ); xml.Print(); } { // Bug [ 1451649 ] Attribute values with trailing quotes not handled correctly TiXmlDocument xml; xml.Parse( "" ); XmlTest( "Throw error with bad end quotes.", xml.Error(), true ); } #ifdef TIXML_USE_STL { // Bug [ 1449463 ] Consider generic query TiXmlDocument xml; xml.Parse( "" ); TiXmlElement* ele = xml.FirstChildElement(); double d; int i; float f; bool b; std::string str; XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &d ), TIXML_SUCCESS ); XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &i ), TIXML_SUCCESS ); XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &f ), TIXML_SUCCESS ); XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &b ), TIXML_WRONG_TYPE ); XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "nobar", &b ), TIXML_NO_ATTRIBUTE ); XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "barStr", &str ), TIXML_SUCCESS ); XmlTest( "QueryValueAttribute", (d==3.0), true ); XmlTest( "QueryValueAttribute", (i==3), true ); XmlTest( "QueryValueAttribute", (f==3.0f), true ); XmlTest( "QueryValueAttribute", (str==std::string( "a string" )), true ); } #endif #ifdef TIXML_USE_STL { // [ 1505267 ] redundant malloc in TiXmlElement::Attribute TiXmlDocument xml; xml.Parse( "" ); TiXmlElement* ele = xml.FirstChildElement(); double d; int i; std::string bar = "bar"; const std::string* atrrib = ele->Attribute( bar ); ele->Attribute( bar, &d ); ele->Attribute( bar, &i ); XmlTest( "Attribute", atrrib->empty(), false ); XmlTest( "Attribute", (d==3.0), true ); XmlTest( "Attribute", (i==3), true ); } #endif { // [ 1356059 ] Allow TiXMLDocument to only be at the top level TiXmlDocument xml, xml2; xml.InsertEndChild( xml2 ); XmlTest( "Document only at top level.", xml.Error(), true ); XmlTest( "Document only at top level.", xml.ErrorId(), TiXmlBase::TIXML_ERROR_DOCUMENT_TOP_ONLY ); } { // [ 1663758 ] Failure to report error on bad XML TiXmlDocument xml; xml.Parse(""); XmlTest("Missing end tag at end of input", xml.Error(), true); xml.Parse(" "); XmlTest("Missing end tag with trailing whitespace", xml.Error(), true); } { // [ 1635701 ] fail to parse files with a tag separated into two lines // I'm not sure this is a bug. Marked 'pending' for feedback. TiXmlDocument xml; xml.Parse( "<p>text</p\n><title>" ); //xml.Print(); //XmlTest( "Tag split by newline", xml.Error(), false ); } #ifdef TIXML_USE_STL { // [ 1475201 ] TinyXML parses entities in comments TiXmlDocument xml; istringstream parse1( "<!-- declarations for <head> & <body> -->" "<!-- far & away -->" ); parse1 >> xml; TiXmlNode* e0 = xml.FirstChild(); TiXmlNode* e1 = e0->NextSibling(); TiXmlComment* c0 = e0->ToComment(); TiXmlComment* c1 = e1->ToComment(); XmlTest( "Comments ignore entities.", " declarations for <head> & <body> ", c0->Value(), true ); XmlTest( "Comments ignore entities.", " far & away ", c1->Value(), true ); } #endif { // [ 1475201 ] TinyXML parses entities in comments TiXmlDocument xml; xml.Parse("<!-- declarations for <head> & <body> -->" "<!-- far & away -->" ); TiXmlNode* e0 = xml.FirstChild(); TiXmlNode* e1 = e0->NextSibling(); TiXmlComment* c0 = e0->ToComment(); TiXmlComment* c1 = e1->ToComment(); XmlTest( "Comments ignore entities.", " declarations for <head> & <body> ", c0->Value(), true ); XmlTest( "Comments ignore entities.", " far & away ", c1->Value(), true ); } { TiXmlDocument xml; xml.Parse( "<Parent>" "<child1 att=''/>" "<!-- With this comment, child2 will not be parsed! -->" "<child2 att=''/>" "</Parent>" ); int count = 0; TiXmlNode* ele = 0; while ( (ele = xml.FirstChildElement( "Parent" )->IterateChildren( ele ) ) != 0 ) { ++count; } XmlTest( "Comments iterate correctly.", 3, count ); } { // trying to repro ]1874301]. If it doesn't go into an infinite loop, all is well. unsigned char buf[] = "<?xml version=\"1.0\" encoding=\"utf-8\"?><feed><![CDATA[Test XMLblablablalblbl"; buf[60] = 239; buf[61] = 0; TiXmlDocument doc; doc.Parse( (const char*)buf); } { // bug 1827248 Error while parsing a little bit malformed file // Actually not malformed - should work. TiXmlDocument xml; xml.Parse( "<attributelist> </attributelist >" ); XmlTest( "Handle end tag whitespace", false, xml.Error() ); } { // 1709904 - can not repro the crash { TiXmlDocument xml; xml.Parse( "<tag>/</tag>" ); XmlTest( "Odd XML parsing.", xml.FirstChild()->Value(), "tag" ); } /* Could not repro. { TiXmlDocument xml; xml.LoadFile( "EQUI_Inventory.xml" ); //XmlTest( "Odd XML parsing.", xml.FirstChildElement()->Value(), "XML" ); TiXmlPrinter printer; xml.Accept( &printer ); fprintf( stdout, "%s", printer.CStr() ); }*/ } /* 1417717 experiment { TiXmlDocument xml; xml.Parse("<text>Dan & Tracie</text>"); xml.Print(stdout); } { TiXmlDocument xml; xml.Parse("<text>Dan &foo; Tracie</text>"); xml.Print(stdout); } */ #if defined( WIN32 ) && defined( TUNE ) _CrtMemCheckpoint( &endMemState ); //_CrtMemDumpStatistics( &endMemState ); _CrtMemState diffMemState; _CrtMemDifference( &diffMemState, &startMemState, &endMemState ); _CrtMemDumpStatistics( &diffMemState ); #endif printf ("\nPass %d, Fail %d\n", gPass, gFail); return gFail; }