#if defined( _MSC_VER ) #if !defined( _CRT_SECURE_NO_WARNINGS ) #define _CRT_SECURE_NO_WARNINGS // This test file is not intended to be secure. #endif #endif #include "tinyxml2.h" #include #include #include #include #if defined( _MSC_VER ) || defined (WIN32) #include #define WIN32_LEAN_AND_MEAN #include _CrtMemState startMemState; _CrtMemState endMemState; #else #include #include #endif using namespace tinyxml2; using namespace std; int gPass = 0; int gFail = 0; bool XMLTest (const char* testString, const char* expected, const char* found, bool echo=true, bool extraNL=false ) { bool pass; if ( !expected && !found ) pass = true; else if ( !expected || !found ) pass = false; else pass = !strcmp( expected, found ); if ( pass ) printf ("[pass]"); else printf ("[fail]"); if ( !echo ) { printf (" %s\n", testString); } else { if ( extraNL ) { printf( " %s\n", testString ); printf( "%s\n", expected ); printf( "%s\n", found ); } else { printf (" %s [%s][%s]\n", testString, expected, found); } } if ( pass ) ++gPass; else ++gFail; return pass; } bool XMLTest(const char* testString, XMLError expected, XMLError found, bool echo = true, bool extraNL = false) { return XMLTest(testString, XMLDocument::ErrorIDToName(expected), XMLDocument::ErrorIDToName(found), echo, extraNL); } bool XMLTest(const char* testString, bool expected, bool found, bool echo = true, bool extraNL = false) { return XMLTest(testString, expected ? "true" : "false", found ? "true" : "false", echo, extraNL); } template< class T > bool XMLTest( const char* testString, T expected, T found, bool echo=true ) { bool pass = ( expected == found ); if ( pass ) printf ("[pass]"); else printf ("[fail]"); if ( !echo ) printf (" %s\n", testString); else printf (" %s [%d][%d]\n", testString, static_cast(expected), static_cast(found) ); if ( pass ) ++gPass; else ++gFail; return pass; } void NullLineEndings( char* p ) { while( p && *p ) { if ( *p == '\n' || *p == '\r' ) { *p = 0; return; } ++p; } } int example_1() { XMLDocument doc; doc.LoadFile( "resources/dream.xml" ); return doc.ErrorID(); } /** @page Example-1 Load an XML File * @dontinclude ./xmltest.cpp * Basic XML file loading. * The basic syntax to load an XML file from * disk and check for an error. (ErrorID() * will return 0 for no error.) * @skip example_1() * @until } */ int example_2() { static const char* xml = ""; XMLDocument doc; doc.Parse( xml ); return doc.ErrorID(); } /** @page Example-2 Parse an XML from char buffer * @dontinclude ./xmltest.cpp * Basic XML string parsing. * The basic syntax to parse an XML for * a char* and check for an error. (ErrorID() * will return 0 for no error.) * @skip example_2() * @until } */ int example_3() { static const char* xml = "" "" "" "A Midsummer Night's Dream" ""; XMLDocument doc; doc.Parse( xml ); XMLElement* titleElement = doc.FirstChildElement( "PLAY" )->FirstChildElement( "TITLE" ); const char* title = titleElement->GetText(); printf( "Name of play (1): %s\n", title ); XMLText* textNode = titleElement->FirstChild()->ToText(); title = textNode->Value(); printf( "Name of play (2): %s\n", title ); return doc.ErrorID(); } /** @page Example-3 Get information out of XML @dontinclude ./xmltest.cpp In this example, we navigate a simple XML file, and read some interesting text. Note that this example doesn't use error checking; working code should check for null pointers when walking an XML tree, or use XMLHandle. (The XML is an excerpt from "dream.xml"). @skip example_3() @until "; The structure of the XML file is:
  • (declaration)
  • (dtd stuff)
  • Element "PLAY"
    • Element "TITLE"
      • Text "A Midsummer Night's Dream"
For this example, we want to print out the title of the play. The text of the title (what we want) is child of the "TITLE" element which is a child of the "PLAY" element. We want to skip the declaration and dtd, so the method FirstChildElement() is a good choice. The FirstChildElement() of the Document is the "PLAY" Element, the FirstChildElement() of the "PLAY" Element is the "TITLE" Element. @until ( "TITLE" ); We can then use the convenience function GetText() to get the title of the play. @until title ); Text is just another Node in the XML DOM. And in fact you should be a little cautious with it, as text nodes can contain elements. @verbatim Consider: A Midsummer Night's Dream @endverbatim It is more correct to actually query the Text Node if in doubt: @until title ); Noting that here we use FirstChild() since we are looking for XMLText, not an element, and ToText() is a cast from a Node to a XMLText. */ bool example_4() { static const char* xml = "" " " " " " 2" " " ""; XMLDocument doc; doc.Parse( xml ); int v0 = 0; int v1 = 0; XMLElement* attributeApproachElement = doc.FirstChildElement()->FirstChildElement( "attributeApproach" ); attributeApproachElement->QueryIntAttribute( "v", &v0 ); XMLElement* textApproachElement = doc.FirstChildElement()->FirstChildElement( "textApproach" ); textApproachElement->FirstChildElement( "v" )->QueryIntText( &v1 ); printf( "Both values are the same: %d and %d\n", v0, v1 ); return !doc.Error() && ( v0 == v1 ); } /** @page Example-4 Read attributes and text information. @dontinclude ./xmltest.cpp There are fundamentally 2 ways of writing a key-value pair into an XML file. (Something that's always annoyed me about XML.) Either by using attributes, or by writing the key name into an element and the value into the text node wrapped by the element. Both approaches are illustrated in this example, which shows two ways to encode the value "2" into the key "v": @skip example_4() @until ""; TinyXML-2 has accessors for both approaches. When using an attribute, you navigate to the XMLElement with that attribute and use the QueryIntAttribute() group of methods. (Also QueryFloatAttribute(), etc.) @skip XMLElement* attributeApproachElement @until &v0 ); When using the text approach, you need to navigate down one more step to the XMLElement that contains the text. Note the extra FirstChildElement( "v" ) in the code below. The value of the text can then be safely queried with the QueryIntText() group of methods. (Also QueryFloatText(), etc.) @skip XMLElement* textApproachElement @until &v1 ); */ int main( int argc, const char ** argv ) { #if defined( _MSC_VER ) && defined( DEBUG ) _CrtMemCheckpoint( &startMemState ); // Enable MS Visual C++ debug heap memory leaks dump on exit _CrtSetDbgFlag(_CrtSetDbgFlag(_CRTDBG_REPORT_FLAG) | _CRTDBG_LEAK_CHECK_DF); { int leaksOnStart = _CrtDumpMemoryLeaks(); XMLTest( "No leaks on start?", FALSE, leaksOnStart ); } #endif { TIXMLASSERT( true ); } if ( argc > 1 ) { XMLDocument* doc = new XMLDocument(); clock_t startTime = clock(); doc->LoadFile( argv[1] ); clock_t loadTime = clock(); int errorID = doc->ErrorID(); delete doc; doc = 0; clock_t deleteTime = clock(); printf( "Test file '%s' loaded. ErrorID=%d\n", argv[1], errorID ); if ( !errorID ) { printf( "Load time=%u\n", (unsigned)(loadTime - startTime) ); printf( "Delete time=%u\n", (unsigned)(deleteTime - loadTime) ); printf( "Total time=%u\n", (unsigned)(deleteTime - startTime) ); } exit(0); } FILE* fp = fopen( "resources/dream.xml", "r" ); if ( !fp ) { printf( "Error opening test file 'dream.xml'.\n" "Is your working directory the same as where \n" "the xmltest.cpp and dream.xml file are?\n\n" #if defined( _MSC_VER ) "In windows Visual Studio you may need to set\n" "Properties->Debugging->Working Directory to '..'\n" #endif ); exit( 1 ); } fclose( fp ); XMLTest( "Example-1", 0, example_1() ); XMLTest( "Example-2", 0, example_2() ); XMLTest( "Example-3", 0, example_3() ); XMLTest( "Example-4", true, example_4() ); /* ------ Example 2: Lookup information. ---- */ { static const char* test[] = { "", "", "", "", "", "", " \n \n ", "", "", "Text inside element.", "", "Text inside and bolded in the element.", "Text inside and bolded in the element.", "This & That.", "", 0 }; for( int i=0; test[i]; ++i ) { XMLDocument doc; doc.Parse( test[i] ); XMLTest( "Element test", false, doc.Error() ); doc.Print(); printf( "----------------------------------------------\n" ); } } #if 1 { static const char* test = ""; XMLDocument doc; doc.Parse( test ); XMLTest( "Hello world declaration", false, doc.Error() ); doc.Print(); } { // This test is pre-test for the next one // (where Element1 is inserted "after itself". // This code didn't use to crash. XMLDocument doc; XMLElement* element1 = doc.NewElement("Element1"); XMLElement* element2 = doc.NewElement("Element2"); doc.InsertEndChild(element1); doc.InsertEndChild(element2); doc.InsertAfterChild(element2, element2); doc.InsertAfterChild(element2, element2); } { XMLDocument doc; XMLElement* element1 = doc.NewElement("Element1"); XMLElement* element2 = doc.NewElement("Element2"); doc.InsertEndChild(element1); doc.InsertEndChild(element2); // This insertion "after itself" // used to cause invalid memory access and crash doc.InsertAfterChild(element1, element1); doc.InsertAfterChild(element1, element1); doc.InsertAfterChild(element2, element2); doc.InsertAfterChild(element2, element2); } { static const char* test = "Text before."; XMLDocument doc; doc.Parse( test ); XMLTest( "Element text before", false, doc.Error() ); XMLElement* root = doc.FirstChildElement(); XMLElement* newElement = doc.NewElement( "Subelement" ); root->InsertEndChild( newElement ); doc.Print(); } { XMLDocument* doc = new XMLDocument(); static const char* test = ""; doc->Parse( test ); XMLTest( "Element with sub element", false, doc->Error() ); delete doc; } { // Test: Programmatic DOM nodes insertion return values XMLDocument doc; XMLNode* first = doc.NewElement( "firstElement" ); XMLTest( "New element", true, first != 0 ); XMLNode* firstAfterInsertion = doc.InsertFirstChild( first ); XMLTest( "New element inserted first", true, firstAfterInsertion == first ); XMLNode* last = doc.NewElement( "lastElement" ); XMLTest( "New element", true, last != 0 ); XMLNode* lastAfterInsertion = doc.InsertEndChild( last ); XMLTest( "New element inserted last", true, lastAfterInsertion == last ); XMLNode* middle = doc.NewElement( "middleElement" ); XMLTest( "New element", true, middle != 0 ); XMLNode* middleAfterInsertion = doc.InsertAfterChild( first, middle ); XMLTest( "New element inserted middle", true, middleAfterInsertion == middle ); } { // Test: Programmatic DOM // Build: // // // // // & Text! // XMLDocument* doc = new XMLDocument(); XMLNode* element = doc->InsertEndChild( doc->NewElement( "element" ) ); XMLElement* sub[3] = { doc->NewElement( "sub" ), doc->NewElement( "sub" ), doc->NewElement( "sub" ) }; for( int i=0; i<3; ++i ) { sub[i]->SetAttribute( "attrib", i ); } element->InsertEndChild( sub[2] ); const int dummyInitialValue = 1000; int dummyValue = dummyInitialValue; XMLNode* comment = element->InsertFirstChild( doc->NewComment( "comment" ) ); comment->SetUserData(&dummyValue); element->InsertAfterChild( comment, sub[0] ); element->InsertAfterChild( sub[0], sub[1] ); sub[2]->InsertFirstChild( doc->NewText( "& Text!" )); doc->Print(); XMLTest( "Programmatic DOM", "comment", doc->FirstChildElement( "element" )->FirstChild()->Value() ); XMLTest( "Programmatic DOM", "0", doc->FirstChildElement( "element" )->FirstChildElement()->Attribute( "attrib" ) ); XMLTest( "Programmatic DOM", 2, doc->FirstChildElement()->LastChildElement( "sub" )->IntAttribute( "attrib" ) ); XMLTest( "Programmatic DOM", "& Text!", doc->FirstChildElement()->LastChildElement( "sub" )->FirstChild()->ToText()->Value() ); XMLTest("User data - pointer", true, &dummyValue == comment->GetUserData(), false); XMLTest("User data - value behind pointer", dummyInitialValue, dummyValue, false); // And now deletion: element->DeleteChild( sub[2] ); doc->DeleteNode( comment ); element->FirstChildElement()->SetAttribute( "attrib", true ); element->LastChildElement()->DeleteAttribute( "attrib" ); XMLTest( "Programmatic DOM", true, doc->FirstChildElement()->FirstChildElement()->BoolAttribute( "attrib" ) ); const int defaultIntValue = 10; const int replacementIntValue = 20; int value1 = defaultIntValue; int value2 = doc->FirstChildElement()->LastChildElement()->IntAttribute( "attrib", replacementIntValue ); XMLError result = doc->FirstChildElement()->LastChildElement()->QueryIntAttribute( "attrib", &value1 ); XMLTest( "Programmatic DOM", XML_NO_ATTRIBUTE, result ); XMLTest( "Programmatic DOM", defaultIntValue, value1 ); XMLTest( "Programmatic DOM", replacementIntValue, value2 ); doc->Print(); { XMLPrinter streamer; doc->Print( &streamer ); printf( "%s", streamer.CStr() ); } { XMLPrinter streamer( 0, true ); doc->Print( &streamer ); XMLTest( "Compact mode", "", streamer.CStr(), false ); } doc->SaveFile( "./resources/out/pretty.xml" ); XMLTest( "Save pretty.xml", false, doc->Error() ); doc->SaveFile( "./resources/out/compact.xml", true ); XMLTest( "Save compact.xml", false, doc->Error() ); delete doc; } { // Test: Dream // XML1 : 1,187,569 bytes in 31,209 allocations // XML2 : 469,073 bytes in 323 allocations //int newStart = gNew; XMLDocument doc; doc.LoadFile( "resources/dream.xml" ); XMLTest( "Load dream.xml", false, doc.Error() ); doc.SaveFile( "resources/out/dreamout.xml" ); XMLTest( "Save dreamout.xml", false, doc.Error() ); doc.PrintError(); XMLTest( "Dream", "xml version=\"1.0\"", doc.FirstChild()->ToDeclaration()->Value() ); XMLTest( "Dream", true, doc.FirstChild()->NextSibling()->ToUnknown() ? true : false ); XMLTest( "Dream", "DOCTYPE PLAY SYSTEM \"play.dtd\"", doc.FirstChild()->NextSibling()->ToUnknown()->Value() ); XMLTest( "Dream", "And Robin shall restore amends.", doc.LastChild()->LastChild()->LastChild()->LastChild()->LastChildElement()->GetText() ); XMLTest( "Dream", "And Robin shall restore amends.", doc.LastChild()->LastChild()->LastChild()->LastChild()->LastChildElement()->GetText() ); XMLDocument doc2; doc2.LoadFile( "resources/out/dreamout.xml" ); XMLTest( "Load dreamout.xml", false, doc2.Error() ); XMLTest( "Dream-out", "xml version=\"1.0\"", doc2.FirstChild()->ToDeclaration()->Value() ); XMLTest( "Dream-out", true, doc2.FirstChild()->NextSibling()->ToUnknown() ? true : false ); XMLTest( "Dream-out", "DOCTYPE PLAY SYSTEM \"play.dtd\"", doc2.FirstChild()->NextSibling()->ToUnknown()->Value() ); XMLTest( "Dream-out", "And Robin shall restore amends.", doc2.LastChild()->LastChild()->LastChild()->LastChild()->LastChildElement()->GetText() ); //gNewTotal = gNew - newStart; } { const char* error = "\n" "\n" " \n" ""; XMLDocument doc; doc.Parse( error ); XMLTest( "Bad XML", XML_ERROR_PARSING_ATTRIBUTE, doc.ErrorID() ); } { const char* str = ""; XMLDocument doc; doc.Parse( str ); XMLTest( "Top level attributes", false, doc.Error() ); XMLElement* ele = doc.FirstChildElement(); int iVal; XMLError result; double dVal; result = ele->QueryDoubleAttribute( "attr0", &dVal ); XMLTest( "Query attribute: int as double", XML_SUCCESS, result); XMLTest( "Query attribute: int as double", 1, (int)dVal ); XMLTest( "Query attribute: int as double", 1, (int)ele->DoubleAttribute("attr0")); result = ele->QueryDoubleAttribute( "attr1", &dVal ); XMLTest( "Query attribute: double as double", XML_SUCCESS, result); XMLTest( "Query attribute: double as double", 2.0, dVal ); XMLTest( "Query attribute: double as double", 2.0, ele->DoubleAttribute("attr1") ); result = ele->QueryIntAttribute( "attr1", &iVal ); XMLTest( "Query attribute: double as int", XML_SUCCESS, result); XMLTest( "Query attribute: double as int", 2, iVal ); result = ele->QueryIntAttribute( "attr2", &iVal ); XMLTest( "Query attribute: not a number", XML_WRONG_ATTRIBUTE_TYPE, result ); XMLTest( "Query attribute: not a number", 4.0, ele->DoubleAttribute("attr2", 4.0) ); result = ele->QueryIntAttribute( "bar", &iVal ); XMLTest( "Query attribute: does not exist", XML_NO_ATTRIBUTE, result ); XMLTest( "Query attribute: does not exist", true, ele->BoolAttribute("bar", true) ); } { const char* str = ""; XMLDocument doc; doc.Parse( str ); XMLTest( "Empty top element", false, doc.Error() ); XMLElement* ele = doc.FirstChildElement(); int iVal, iVal2; double dVal, dVal2; ele->SetAttribute( "str", "strValue" ); ele->SetAttribute( "int", 1 ); ele->SetAttribute( "double", -1.0 ); const char* cStr = ele->Attribute( "str" ); { XMLError queryResult = ele->QueryIntAttribute( "int", &iVal ); XMLTest( "Query int attribute", XML_SUCCESS, queryResult); } { XMLError queryResult = ele->QueryDoubleAttribute( "double", &dVal ); XMLTest( "Query double attribute", XML_SUCCESS, queryResult); } { int queryResult = ele->QueryAttribute( "int", &iVal2 ); XMLTest( "Query int attribute generic", (int)XML_SUCCESS, queryResult); } { int queryResult = ele->QueryAttribute( "double", &dVal2 ); XMLTest( "Query double attribute generic", (int)XML_SUCCESS, queryResult); } XMLTest( "Attribute match test", "strValue", ele->Attribute( "str", "strValue" ) ); XMLTest( "Attribute round trip. c-string.", "strValue", cStr ); XMLTest( "Attribute round trip. int.", 1, iVal ); XMLTest( "Attribute round trip. double.", -1, (int)dVal ); XMLTest( "Alternate query", true, iVal == iVal2 ); XMLTest( "Alternate query", true, dVal == dVal2 ); XMLTest( "Alternate query", true, iVal == ele->IntAttribute("int") ); XMLTest( "Alternate query", true, dVal == ele->DoubleAttribute("double") ); } { XMLDocument doc; doc.LoadFile( "resources/utf8test.xml" ); XMLTest( "Load utf8test.xml", false, doc.Error() ); // Get the attribute "value" from the "Russian" element and check it. XMLElement* element = doc.FirstChildElement( "document" )->FirstChildElement( "Russian" ); 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" ) ); 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>"; XMLText* text = doc.FirstChildElement( "document" )->FirstChildElement( (const char*) russianElementName )->FirstChild()->ToText(); XMLTest( "UTF-8: Browsing russian element name.", russianText, text->Value() ); // Now try for a round trip. doc.SaveFile( "resources/out/utf8testout.xml" ); XMLTest( "UTF-8: Save testout.xml", false, doc.Error() ); // Check the round trip. bool roundTripOkay = false; FILE* saved = fopen( "resources/out/utf8testout.xml", "r" ); XMLTest( "UTF-8: Open utf8testout.xml", true, saved != 0 ); FILE* verify = fopen( "resources/utf8testverify.xml", "r" ); XMLTest( "UTF-8: Open utf8testverify.xml", true, verify != 0 ); if ( saved && verify ) { roundTripOkay = true; char verifyBuf[256]; while ( fgets( verifyBuf, 256, verify ) ) { char savedBuf[256]; fgets( savedBuf, 256, saved ); NullLineEndings( verifyBuf ); NullLineEndings( savedBuf ); if ( strcmp( verifyBuf, savedBuf ) ) { printf( "verify:%s<\n", verifyBuf ); printf( "saved :%s<\n", savedBuf ); roundTripOkay = false; break; } } } if ( saved ) fclose( saved ); if ( verify ) fclose( verify ); XMLTest( "UTF-8: Verified multi-language round trip.", true, roundTripOkay ); } // --------GetText()----------- { const char* str = "This is text"; XMLDocument doc; doc.Parse( str ); XMLTest( "Double whitespace", false, doc.Error() ); const XMLElement* element = doc.RootElement(); XMLTest( "GetText() normal use.", "This is text", element->GetText() ); str = "This is text"; doc.Parse( str ); XMLTest( "Bold text simulation", false, doc.Error() ); element = doc.RootElement(); XMLTest( "GetText() contained element.", element->GetText() == 0, true ); } // --------SetText()----------- { const char* str = ""; XMLDocument doc; doc.Parse( str ); XMLTest( "Empty closed element", false, doc.Error() ); XMLElement* element = doc.RootElement(); element->SetText("darkness."); XMLTest( "SetText() normal use (open/close).", "darkness.", element->GetText() ); element->SetText("blue flame."); XMLTest( "SetText() replace.", "blue flame.", element->GetText() ); str = ""; doc.Parse( str ); XMLTest( "Empty self-closed element", false, doc.Error() ); element = doc.RootElement(); element->SetText("The driver"); XMLTest( "SetText() normal use. (self-closing)", "The driver", element->GetText() ); element->SetText("horses"); XMLTest( "SetText() replace with tag-like text.", "horses", element->GetText() ); //doc.Print(); str = "Text in nested element"; doc.Parse( str ); XMLTest( "Text in nested element", false, doc.Error() ); element = doc.RootElement(); element->SetText("wolves"); XMLTest( "SetText() prefix to nested non-text children.", "wolves", element->GetText() ); str = ""; doc.Parse( str ); XMLTest( "Empty self-closed element round 2", false, doc.Error() ); element = doc.RootElement(); element->SetText( "str" ); XMLTest( "SetText types", "str", element->GetText() ); element->SetText( 1 ); XMLTest( "SetText types", "1", element->GetText() ); element->SetText( 1U ); XMLTest( "SetText types", "1", element->GetText() ); element->SetText( true ); XMLTest( "SetText types", "true", element->GetText() ); element->SetText( 1.5f ); XMLTest( "SetText types", "1.5", element->GetText() ); element->SetText( 1.5 ); XMLTest( "SetText types", "1.5", element->GetText() ); } // ---------- Attributes --------- { static const int64_t BIG = -123456789012345678; XMLDocument doc; XMLElement* element = doc.NewElement("element"); doc.InsertFirstChild(element); { element->SetAttribute("attrib", int(-100)); { int v = 0; XMLError queryResult = element->QueryIntAttribute("attrib", &v); XMLTest("Attribute: int", XML_SUCCESS, queryResult, true); XMLTest("Attribute: int", -100, v, true); } { int v = 0; int queryResult = element->QueryAttribute("attrib", &v); XMLTest("Attribute: int", (int)XML_SUCCESS, queryResult, true); XMLTest("Attribute: int", -100, v, true); } XMLTest("Attribute: int", -100, element->IntAttribute("attrib"), true); } { element->SetAttribute("attrib", unsigned(100)); { unsigned v = 0; XMLError queryResult = element->QueryUnsignedAttribute("attrib", &v); XMLTest("Attribute: unsigned", XML_SUCCESS, queryResult, true); XMLTest("Attribute: unsigned", unsigned(100), v, true); } { unsigned v = 0; int queryResult = element->QueryAttribute("attrib", &v); XMLTest("Attribute: unsigned", (int)XML_SUCCESS, queryResult, true); XMLTest("Attribute: unsigned", unsigned(100), v, true); } XMLTest("Attribute: unsigned", unsigned(100), element->UnsignedAttribute("attrib"), true); } { element->SetAttribute("attrib", BIG); { int64_t v = 0; XMLError queryResult = element->QueryInt64Attribute("attrib", &v); XMLTest("Attribute: int64_t", XML_SUCCESS, queryResult, true); XMLTest("Attribute: int64_t", BIG, v, true); } { int64_t v = 0; int queryResult = element->QueryAttribute("attrib", &v); XMLTest("Attribute: int64_t", (int)XML_SUCCESS, queryResult, true); XMLTest("Attribute: int64_t", BIG, v, true); } XMLTest("Attribute: int64_t", BIG, element->Int64Attribute("attrib"), true); } { element->SetAttribute("attrib", true); { bool v = false; XMLError queryResult = element->QueryBoolAttribute("attrib", &v); XMLTest("Attribute: bool", XML_SUCCESS, queryResult, true); XMLTest("Attribute: bool", true, v, true); } { bool v = false; int queryResult = element->QueryAttribute("attrib", &v); XMLTest("Attribute: bool", (int)XML_SUCCESS, queryResult, true); XMLTest("Attribute: bool", true, v, true); } XMLTest("Attribute: bool", true, element->BoolAttribute("attrib"), true); } { element->SetAttribute("attrib", true); const char* result = element->Attribute("attrib"); XMLTest("Bool true is 'true'", "true", result); XMLUtil::SetBoolSerialization("1", "0"); element->SetAttribute("attrib", true); result = element->Attribute("attrib"); XMLTest("Bool true is '1'", "1", result); XMLUtil::SetBoolSerialization(0, 0); } { element->SetAttribute("attrib", 100.0); { double v = 0; XMLError queryResult = element->QueryDoubleAttribute("attrib", &v); XMLTest("Attribute: double", XML_SUCCESS, queryResult, true); XMLTest("Attribute: double", 100.0, v, true); } { double v = 0; int queryResult = element->QueryAttribute("attrib", &v); XMLTest("Attribute: bool", (int)XML_SUCCESS, queryResult, true); XMLTest("Attribute: double", 100.0, v, true); } XMLTest("Attribute: double", 100.0, element->DoubleAttribute("attrib"), true); } { element->SetAttribute("attrib", 100.0f); { float v = 0; XMLError queryResult = element->QueryFloatAttribute("attrib", &v); XMLTest("Attribute: float", XML_SUCCESS, queryResult, true); XMLTest("Attribute: float", 100.0f, v, true); } { float v = 0; int queryResult = element->QueryAttribute("attrib", &v); XMLTest("Attribute: float", (int)XML_SUCCESS, queryResult, true); XMLTest("Attribute: float", 100.0f, v, true); } XMLTest("Attribute: float", 100.0f, element->FloatAttribute("attrib"), true); } { element->SetText(BIG); int64_t v = 0; XMLError queryResult = element->QueryInt64Text(&v); XMLTest("Element: int64_t", XML_SUCCESS, queryResult, true); XMLTest("Element: int64_t", BIG, v, true); } } // ---------- XMLPrinter stream mode ------ { { FILE* printerfp = fopen("resources/out/printer.xml", "w"); XMLTest("Open printer.xml", true, printerfp != 0); XMLPrinter printer(printerfp); printer.OpenElement("foo"); printer.PushAttribute("attrib-text", "text"); printer.PushAttribute("attrib-int", int(1)); printer.PushAttribute("attrib-unsigned", unsigned(2)); printer.PushAttribute("attrib-int64", int64_t(3)); printer.PushAttribute("attrib-bool", true); printer.PushAttribute("attrib-double", 4.0); printer.CloseElement(); fclose(printerfp); } { XMLDocument doc; doc.LoadFile("resources/out/printer.xml"); XMLTest("XMLPrinter Stream mode: load", XML_SUCCESS, doc.ErrorID(), true); const XMLDocument& cdoc = doc; const XMLAttribute* attrib = cdoc.FirstChildElement("foo")->FindAttribute("attrib-text"); XMLTest("attrib-text", "text", attrib->Value(), true); attrib = cdoc.FirstChildElement("foo")->FindAttribute("attrib-int"); XMLTest("attrib-int", int(1), attrib->IntValue(), true); attrib = cdoc.FirstChildElement("foo")->FindAttribute("attrib-unsigned"); XMLTest("attrib-unsigned", unsigned(2), attrib->UnsignedValue(), true); attrib = cdoc.FirstChildElement("foo")->FindAttribute("attrib-int64"); XMLTest("attrib-int64", int64_t(3), attrib->Int64Value(), true); attrib = cdoc.FirstChildElement("foo")->FindAttribute("attrib-bool"); XMLTest("attrib-bool", true, attrib->BoolValue(), true); attrib = cdoc.FirstChildElement("foo")->FindAttribute("attrib-double"); XMLTest("attrib-double", 4.0, attrib->DoubleValue(), true); } } // ---------- CDATA --------------- { const char* str = "" " the rules!\n" "...since I make symbolic puns" "]]>" ""; XMLDocument doc; doc.Parse( str ); XMLTest( "CDATA symbolic puns round 1", false, doc.Error() ); doc.Print(); XMLTest( "CDATA parse.", "I am > the rules!\n...since I make symbolic puns", doc.FirstChildElement()->FirstChild()->Value(), false ); } // ----------- CDATA ------------- { const char* str = "" "I am > the rules!\n" "...since I make symbolic puns" "]]>" ""; XMLDocument doc; doc.Parse( str ); XMLTest( "CDATA symbolic puns round 2", false, doc.Error() ); doc.Print(); XMLTest( "CDATA parse. [ tixml1:1480107 ]", "I am > the rules!\n...since I make symbolic puns", doc.FirstChildElement()->FirstChild()->Value(), false ); } // InsertAfterChild causes crash. { // InsertBeforeChild and InsertAfterChild causes crash. XMLDocument doc; XMLElement* parent = doc.NewElement( "Parent" ); doc.InsertFirstChild( parent ); XMLElement* childText0 = doc.NewElement( "childText0" ); XMLElement* childText1 = doc.NewElement( "childText1" ); XMLNode* childNode0 = parent->InsertEndChild( childText0 ); XMLTest( "InsertEndChild() return", true, childNode0 == childText0 ); XMLNode* childNode1 = parent->InsertAfterChild( childNode0, childText1 ); XMLTest( "InsertAfterChild() return", true, childNode1 == childText1 ); XMLTest( "Test InsertAfterChild on empty node. ", true, ( childNode1 == parent->LastChild() ) ); } { // Entities not being written correctly. // From Lynn Allen const char* passages = "" "" " " ""; XMLDocument doc; doc.Parse( passages ); XMLTest( "Entity transformation parse round 1", false, doc.Error() ); XMLElement* 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 ); const char* textFilePath = "resources/out/textfile.txt"; FILE* textfile = fopen( textFilePath, "w" ); XMLTest( "Entity transformation: open text file for writing", true, textfile != 0, true ); if ( textfile ) { XMLPrinter streamer( textfile ); psg->Accept( &streamer ); fclose( textfile ); } textfile = fopen( textFilePath, "r" ); XMLTest( "Entity transformation: open text file for reading", true, textfile != 0, true ); if ( textfile ) { char buf[ 1024 ]; fgets( buf, 1024, textfile ); XMLTest( "Entity transformation: write. ", "\n", buf, false ); fclose( textfile ); } } { // Suppress entities. const char* passages = "" "" "Crazy &ttk;" ""; XMLDocument doc( false ); doc.Parse( passages ); XMLTest( "Entity transformation parse round 2", false, doc.Error() ); XMLTest( "No entity parsing.", "Line 5 has "quotation marks" and 'apostrophe marks'.", doc.FirstChildElement()->FirstChildElement()->Attribute( "context" ) ); XMLTest( "No entity parsing.", "Crazy &ttk;", doc.FirstChildElement()->FirstChildElement()->FirstChild()->Value() ); doc.Print(); } { const char* test = ""; XMLDocument doc; doc.Parse( test ); XMLTest( "dot in names", false, doc.Error() ); XMLTest( "dot in names", "a.elem", doc.FirstChildElement()->Name() ); XMLTest( "dot in names", "2.0", doc.FirstChildElement()->Attribute( "xmi.version" ) ); } { const char* test = "1.1 Start easy ignore fin thickness "; XMLDocument doc; doc.Parse( test ); XMLTest( "fin thickness", false, doc.Error() ); XMLText* text = doc.FirstChildElement()->FirstChildElement()->FirstChild()->ToText(); XMLTest( "Entity with one digit.", "1.1 Start easy ignore fin thickness\n", text->Value(), false ); } { // DOCTYPE not preserved (950171) // const char* doctype = "" "" "" "" ""; XMLDocument doc; doc.Parse( doctype ); XMLTest( "PLAY SYSTEM parse", false, doc.Error() ); doc.SaveFile( "resources/out/test7.xml" ); XMLTest( "PLAY SYSTEM save", false, doc.Error() ); doc.DeleteChild( doc.RootElement() ); doc.LoadFile( "resources/out/test7.xml" ); XMLTest( "PLAY SYSTEM load", false, doc.Error() ); doc.Print(); const XMLUnknown* decl = doc.FirstChild()->NextSibling()->ToUnknown(); XMLTest( "Correct value of unknown.", "DOCTYPE PLAY SYSTEM 'play.dtd'", decl->Value() ); } { // Comments do not stream out correctly. const char* doctype = ""; XMLDocument doc; doc.Parse( doctype ); XMLTest( "Comment somewhat evil", false, doc.Error() ); XMLComment* comment = doc.FirstChild()->ToComment(); XMLTest( "Comment formatting.", " Somewhat ", comment->Value() ); } { // Double attributes const char* doctype = ""; XMLDocument doc; doc.Parse( doctype ); XMLTest( "Parsing repeated attributes.", XML_ERROR_PARSING_ATTRIBUTE, doc.ErrorID() ); // is an error to tinyxml (didn't use to be, but caused issues) doc.PrintError(); } { // Embedded null in stream. const char* doctype = ""; XMLDocument doc; doc.Parse( doctype ); XMLTest( "Embedded null throws error.", true, doc.Error() ); } { // Empty documents should return TIXML_XML_ERROR_PARSING_EMPTY, bug 1070717 const char* str = ""; XMLDocument doc; doc.Parse( str ); XMLTest( "Empty document error", XML_ERROR_EMPTY_DOCUMENT, doc.ErrorID() ); } { // Documents with all whitespaces should return TIXML_XML_ERROR_PARSING_EMPTY, bug 1070717 const char* str = " "; XMLDocument doc; doc.Parse( str ); XMLTest( "All whitespaces document error", XML_ERROR_EMPTY_DOCUMENT, doc.ErrorID() ); } { // Low entities XMLDocument doc; doc.Parse( "" ); XMLTest( "Hex values", false, doc.Error() ); const char result[] = { 0x0e, 0 }; XMLTest( "Low entities.", result, doc.FirstChildElement()->GetText() ); doc.Print(); } { // Attribute values with trailing quotes not handled correctly XMLDocument doc; doc.Parse( "" ); XMLTest( "Throw error with bad end quotes.", true, doc.Error() ); } { // [ 1663758 ] Failure to report error on bad XML XMLDocument xml; xml.Parse(""); XMLTest("Missing end tag at end of input", true, xml.Error()); xml.Parse(" "); XMLTest("Missing end tag with trailing whitespace", true, xml.Error()); xml.Parse(""); XMLTest("Mismatched tags", XML_ERROR_MISMATCHED_ELEMENT, xml.ErrorID() ); } { // [ 1475201 ] TinyXML parses entities in comments XMLDocument xml; xml.Parse("" "" ); XMLTest( "Declarations for head and body", false, xml.Error() ); XMLNode* e0 = xml.FirstChild(); XMLNode* e1 = e0->NextSibling(); XMLComment* c0 = e0->ToComment(); XMLComment* c1 = e1->ToComment(); XMLTest( "Comments ignore entities.", " declarations for & ", c0->Value(), true ); XMLTest( "Comments ignore entities.", " far & away ", c1->Value(), true ); } { XMLDocument xml; xml.Parse( "" "" "" "" "" ); XMLTest( "Comments iteration", false, xml.Error() ); xml.Print(); int count = 0; for( XMLNode* ele = xml.FirstChildElement( "Parent" )->FirstChild(); ele; ele = ele->NextSibling() ) { ++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[] = " " ); XMLTest( "Handle end tag whitespace", false, xml.Error() ); } { // This one must not result in an infinite loop XMLDocument xml; xml.Parse( "loop" ); XMLTest( "No closing element", true, xml.Error() ); XMLTest( "Infinite loop test.", true, true ); } #endif { const char* pub = " "; XMLDocument doc; doc.Parse( pub ); XMLTest( "Trailing DOCTYPE", false, doc.Error() ); XMLDocument clone; for( const XMLNode* node=doc.FirstChild(); node; node=node->NextSibling() ) { XMLNode* copy = node->ShallowClone( &clone ); clone.InsertEndChild( copy ); } clone.Print(); int count=0; const XMLNode* a=clone.FirstChild(); const XMLNode* b=doc.FirstChild(); for( ; a && b; a=a->NextSibling(), b=b->NextSibling() ) { ++count; XMLTest( "Clone and Equal", true, a->ShallowEqual( b )); } XMLTest( "Clone and Equal", 4, count ); } { // Deep Cloning of root element. XMLDocument doc2; XMLPrinter printer1; { // Make sure doc1 is deleted before we test doc2 const char* xml = "" " " " " " Text" ""; XMLDocument doc; doc.Parse(xml); XMLTest( "Parse before deep cloning root element", false, doc.Error() ); doc.Print(&printer1); XMLNode* root = doc.RootElement()->DeepClone(&doc2); doc2.InsertFirstChild(root); } XMLPrinter printer2; doc2.Print(&printer2); XMLTest("Deep clone of element.", printer1.CStr(), printer2.CStr(), true); } { // Deep Cloning of sub element. XMLDocument doc2; XMLPrinter printer1; { // Make sure doc1 is deleted before we test doc2 const char* xml = "" "" " " " " " Text" ""; XMLDocument doc; doc.Parse(xml); XMLTest( "Parse before deep cloning sub element", false, doc.Error() ); const XMLElement* subElement = doc.FirstChildElement("root")->FirstChildElement("child2"); subElement->Accept(&printer1); XMLNode* clonedSubElement = subElement->DeepClone(&doc2); doc2.InsertFirstChild(clonedSubElement); } XMLPrinter printer2; doc2.Print(&printer2); XMLTest("Deep clone of sub-element.", printer1.CStr(), printer2.CStr(), true); } { // Deep cloning of document. XMLDocument doc2; XMLPrinter printer1; { // Make sure doc1 is deleted before we test doc2 const char* xml = "" "" "" " " " " " Text" ""; XMLDocument doc; doc.Parse(xml); XMLTest( "Parse before deep cloning document", false, doc.Error() ); doc.Print(&printer1); doc.DeepCopy(&doc2); } XMLPrinter printer2; doc2.Print(&printer2); XMLTest("DeepCopy of document.", printer1.CStr(), printer2.CStr(), true); } { // This shouldn't crash. XMLDocument doc; if(XML_SUCCESS != doc.LoadFile( "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa" )) { doc.PrintError(); } XMLTest( "Error in snprinf handling.", true, doc.Error() ); } { // Attribute ordering. static const char* xml = ""; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse for attribute ordering", false, doc.Error() ); XMLElement* ele = doc.FirstChildElement(); const XMLAttribute* a = ele->FirstAttribute(); XMLTest( "Attribute order", "1", a->Value() ); a = a->Next(); XMLTest( "Attribute order", "2", a->Value() ); a = a->Next(); XMLTest( "Attribute order", "3", a->Value() ); XMLTest( "Attribute order", "attrib3", a->Name() ); ele->DeleteAttribute( "attrib2" ); a = ele->FirstAttribute(); XMLTest( "Attribute order", "1", a->Value() ); a = a->Next(); XMLTest( "Attribute order", "3", a->Value() ); ele->DeleteAttribute( "attrib1" ); ele->DeleteAttribute( "attrib3" ); XMLTest( "Attribute order (empty)", true, ele->FirstAttribute() == 0 ); } { // Make sure an attribute with a space in it succeeds. static const char* xml0 = ""; static const char* xml1 = ""; static const char* xml2 = ""; XMLDocument doc0; doc0.Parse( xml0 ); XMLTest( "Parse attribute with space 1", false, doc0.Error() ); XMLDocument doc1; doc1.Parse( xml1 ); XMLTest( "Parse attribute with space 2", false, doc1.Error() ); XMLDocument doc2; doc2.Parse( xml2 ); XMLTest( "Parse attribute with space 3", false, doc2.Error() ); XMLElement* ele = 0; ele = doc0.FirstChildElement(); XMLTest( "Attribute with space #1", "Test Attribute", ele->Attribute( "attribute1" ) ); ele = doc1.FirstChildElement(); XMLTest( "Attribute with space #2", "Test Attribute", ele->Attribute( "attribute1" ) ); ele = doc2.FirstChildElement(); XMLTest( "Attribute with space #3", "Test Attribute", ele->Attribute( "attribute1" ) ); } { // Make sure we don't go into an infinite loop. static const char* xml = ""; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse two elements with attribute", false, doc.Error() ); XMLElement* ele0 = doc.FirstChildElement()->FirstChildElement(); XMLElement* ele1 = ele0->NextSiblingElement(); bool equal = ele0->ShallowEqual( ele1 ); XMLTest( "Infinite loop in shallow equal.", true, equal ); } // -------- Handles ------------ { static const char* xml = "Text"; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse element with attribute and nested element round 1", false, doc.Error() ); XMLElement* ele = XMLHandle( doc ).FirstChildElement( "element" ).FirstChild().ToElement(); XMLTest( "Handle, success, mutable", "sub", ele->Value() ); XMLHandle docH( doc ); ele = docH.FirstChildElement( "none" ).FirstChildElement( "element" ).ToElement(); XMLTest( "Handle, dne, mutable", true, ele == 0 ); } { static const char* xml = "Text"; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse element with attribute and nested element round 2", false, doc.Error() ); XMLConstHandle docH( doc ); const XMLElement* ele = docH.FirstChildElement( "element" ).FirstChild().ToElement(); XMLTest( "Handle, success, const", "sub", ele->Value() ); ele = docH.FirstChildElement( "none" ).FirstChildElement( "element" ).ToElement(); XMLTest( "Handle, dne, const", true, ele == 0 ); } { // Default Declaration & BOM XMLDocument doc; doc.InsertEndChild( doc.NewDeclaration() ); doc.SetBOM( true ); XMLPrinter printer; doc.Print( &printer ); static const char* result = "\xef\xbb\xbf"; XMLTest( "BOM and default declaration", result, printer.CStr(), false ); XMLTest( "CStrSize", 42, printer.CStrSize(), false ); } { const char* xml = " This \nis ' text ' " " This is ' text ' \n" "This is ' \n\n text '" ""; XMLDocument doc( true, COLLAPSE_WHITESPACE ); doc.Parse( xml ); XMLTest( "Parse with whitespace collapsing and &apos", false, doc.Error() ); const XMLElement* element = doc.FirstChildElement(); for( const XMLElement* parent = element->FirstChildElement(); parent; parent = parent->NextSiblingElement() ) { XMLTest( "Whitespace collapse", "This is ' text '", parent->GetText() ); } } #if 0 { // Passes if assert doesn't fire. XMLDocument xmlDoc; xmlDoc.NewDeclaration(); xmlDoc.NewComment("Configuration file"); XMLElement *root = xmlDoc.NewElement("settings"); root->SetAttribute("version", 2); } #endif { const char* xml = " "; XMLDocument doc( true, COLLAPSE_WHITESPACE ); doc.Parse( xml ); XMLTest( "Parse with all whitespaces", false, doc.Error() ); XMLTest( "Whitespace all space", true, 0 == doc.FirstChildElement()->FirstChild() ); } { // An assert should not fire. const char* xml = ""; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse with self-closed element", false, doc.Error() ); XMLElement* ele = doc.NewElement( "unused" ); // This will get cleaned up with the 'doc' going out of scope. XMLTest( "Tracking unused elements", true, ele != 0, false ); } { const char* xml = "abc"; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse for printing of sub-element", false, doc.Error() ); XMLElement* ele = doc.FirstChildElement( "parent")->FirstChildElement( "child"); XMLPrinter printer; ele->Accept( &printer ); XMLTest( "Printing of sub-element", "abc\n", printer.CStr(), false ); } { XMLDocument doc; XMLError error = doc.LoadFile( "resources/empty.xml" ); XMLTest( "Loading an empty file", XML_ERROR_EMPTY_DOCUMENT, error ); XMLTest( "Loading an empty file and ErrorName as string", "XML_ERROR_EMPTY_DOCUMENT", doc.ErrorName() ); doc.PrintError(); } { // BOM preservation static const char* xml_bom_preservation = "\xef\xbb\xbf\n"; { XMLDocument doc; XMLTest( "BOM preservation (parse)", XML_SUCCESS, doc.Parse( xml_bom_preservation ), false ); XMLPrinter printer; doc.Print( &printer ); XMLTest( "BOM preservation (compare)", xml_bom_preservation, printer.CStr(), false, true ); doc.SaveFile( "resources/bomtest.xml" ); XMLTest( "Save bomtest.xml", false, doc.Error() ); } { XMLDocument doc; doc.LoadFile( "resources/bomtest.xml" ); XMLTest( "Load bomtest.xml", false, doc.Error() ); XMLTest( "BOM preservation (load)", true, doc.HasBOM(), false ); XMLPrinter printer; doc.Print( &printer ); XMLTest( "BOM preservation (compare)", xml_bom_preservation, printer.CStr(), false, true ); } } { // Insertion with Removal const char* xml = "" "" "" "" "element 1text" "" "" "" ""; const char* xmlInsideTwo = "" "" "" "" "" "element 1text" "" "" ""; const char* xmlAfterOne = "" "" "" "" "element 1text" "" "" ""; const char* xmlAfterTwo = "" "" "" "" "" "element 1text" "" ""; XMLDocument doc; doc.Parse(xml); XMLTest( "Insertion with removal parse round 1", false, doc.Error() ); XMLElement* subtree = doc.RootElement()->FirstChildElement("one")->FirstChildElement("subtree"); XMLElement* two = doc.RootElement()->FirstChildElement("two"); two->InsertFirstChild(subtree); XMLPrinter printer1(0, true); doc.Accept(&printer1); XMLTest("Move node from within to ", xmlInsideTwo, printer1.CStr()); doc.Parse(xml); XMLTest( "Insertion with removal parse round 2", false, doc.Error() ); subtree = doc.RootElement()->FirstChildElement("one")->FirstChildElement("subtree"); two = doc.RootElement()->FirstChildElement("two"); doc.RootElement()->InsertAfterChild(two, subtree); XMLPrinter printer2(0, true); doc.Accept(&printer2); XMLTest("Move node from within after ", xmlAfterTwo, printer2.CStr(), false); doc.Parse(xml); XMLTest( "Insertion with removal parse round 3", false, doc.Error() ); XMLNode* one = doc.RootElement()->FirstChildElement("one"); subtree = one->FirstChildElement("subtree"); doc.RootElement()->InsertAfterChild(one, subtree); XMLPrinter printer3(0, true); doc.Accept(&printer3); XMLTest("Move node from within after ", xmlAfterOne, printer3.CStr(), false); doc.Parse(xml); XMLTest( "Insertion with removal parse round 4", false, doc.Error() ); subtree = doc.RootElement()->FirstChildElement("one")->FirstChildElement("subtree"); two = doc.RootElement()->FirstChildElement("two"); doc.RootElement()->InsertEndChild(subtree); XMLPrinter printer4(0, true); doc.Accept(&printer4); XMLTest("Move node from within after ", xmlAfterTwo, printer4.CStr(), false); } { const char* xml = "" " " ""; XMLDocument doc; doc.Parse(xml); XMLTest( "Parse svg with text", false, doc.Error() ); doc.Print(); } { // Test that it doesn't crash. const char* xml = "<12"; XMLDocument doc; doc.Parse(xml); XMLTest( "Parse root-sample-field0", true, doc.Error() ); doc.PrintError(); } #if 1 // the question being explored is what kind of print to use: // https://github.com/leethomason/tinyxml2/issues/63 { //const char* xml = ""; const char* xml = ""; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse self-closed empty element", false, doc.Error() ); doc.FirstChildElement()->SetAttribute( "attrA-f64", 123456789.123456789 ); doc.FirstChildElement()->SetAttribute( "attrB-f64", 1.001e9 ); doc.FirstChildElement()->SetAttribute( "attrC-f64", 1.0e9 ); doc.FirstChildElement()->SetAttribute( "attrC-f64", 1.0e20 ); doc.FirstChildElement()->SetAttribute( "attrD-f64", 1.0e-10 ); doc.FirstChildElement()->SetAttribute( "attrD-f64", 0.123456789 ); doc.FirstChildElement()->SetAttribute( "attrA-f32", 123456789.123456789f ); doc.FirstChildElement()->SetAttribute( "attrB-f32", 1.001e9f ); doc.FirstChildElement()->SetAttribute( "attrC-f32", 1.0e9f ); doc.FirstChildElement()->SetAttribute( "attrC-f32", 1.0e20f ); doc.FirstChildElement()->SetAttribute( "attrD-f32", 1.0e-10f ); doc.FirstChildElement()->SetAttribute( "attrD-f32", 0.123456789f ); doc.Print(); /* The result of this test is platform, compiler, and library version dependent. :(" XMLPrinter printer; doc.Print( &printer ); XMLTest( "Float and double formatting.", "\n", printer.CStr(), true ); */ } #endif { // Issue #184 // If it doesn't assert, it passes. Caused by objects // getting created during parsing which are then // inaccessible in the memory pools. const char* xmlText = ""; { XMLDocument doc; doc.Parse(xmlText); XMLTest( "Parse hex no closing tag round 1", true, doc.Error() ); } { XMLDocument doc; doc.Parse(xmlText); XMLTest( "Parse hex no closing tag round 2", true, doc.Error() ); doc.Clear(); } } { // If this doesn't assert in DEBUG, all is well. tinyxml2::XMLDocument doc; tinyxml2::XMLElement *pRoot = doc.NewElement("Root"); doc.DeleteNode(pRoot); } { XMLDocument doc; XMLElement* root = doc.NewElement( "Root" ); XMLTest( "Node document before insertion", true, &doc == root->GetDocument() ); doc.InsertEndChild( root ); XMLTest( "Node document after insertion", true, &doc == root->GetDocument() ); } { // If this doesn't assert in DEBUG, all is well. XMLDocument doc; XMLElement* unlinkedRoot = doc.NewElement( "Root" ); XMLElement* linkedRoot = doc.NewElement( "Root" ); doc.InsertFirstChild( linkedRoot ); unlinkedRoot->GetDocument()->DeleteNode( linkedRoot ); unlinkedRoot->GetDocument()->DeleteNode( unlinkedRoot ); } { // Should not assert in DEBUG XMLPrinter printer; } { // Issue 291. Should not crash const char* xml = "�"; XMLDocument doc; doc.Parse( xml ); XMLTest( "Parse hex with closing tag", false, doc.Error() ); XMLPrinter printer; doc.Print( &printer ); } { // Issue 299. Can print elements that are not linked in. // Will crash if issue not fixed. XMLDocument doc; XMLElement* newElement = doc.NewElement( "printme" ); XMLPrinter printer; newElement->Accept( &printer ); // Delete the node to avoid possible memory leak report in debug output doc.DeleteNode( newElement ); } { // Issue 302. Clear errors from LoadFile/SaveFile XMLDocument doc; XMLTest( "Issue 302. Should be no error initially", "XML_SUCCESS", doc.ErrorName() ); doc.SaveFile( "./no/such/path/pretty.xml" ); XMLTest( "Issue 302. Fail to save", "XML_ERROR_FILE_COULD_NOT_BE_OPENED", doc.ErrorName() ); doc.SaveFile( "./resources/out/compact.xml", true ); XMLTest( "Issue 302. Subsequent success in saving", "XML_SUCCESS", doc.ErrorName() ); } { // If a document fails to load then subsequent // successful loads should clear the error XMLDocument doc; XMLTest( "Should be no error initially", false, doc.Error() ); doc.LoadFile( "resources/no-such-file.xml" ); XMLTest( "No such file - should fail", true, doc.Error() ); doc.LoadFile( "resources/dream.xml" ); XMLTest( "Error should be cleared", false, doc.Error() ); } { // Check that declarations are allowed only at beginning of document const char* xml0 = "" " " ""; const char* xml1 = "" "" ""; const char* xml2 = "" ""; const char* xml3 = "" ""; const char* xml4 = ""; XMLDocument doc; doc.Parse(xml0); XMLTest("Test that the code changes do not affect normal parsing", false, doc.Error() ); doc.Parse(xml1); XMLTest("Test that the second declaration is allowed", false, doc.Error() ); doc.Parse(xml2); XMLTest("Test that declaration after a child is not allowed", XML_ERROR_PARSING_DECLARATION, doc.ErrorID() ); doc.Parse(xml3); XMLTest("Test that declaration after a child is not allowed", XML_ERROR_PARSING_DECLARATION, doc.ErrorID() ); doc.Parse(xml4); XMLTest("Test that declaration inside a child is not allowed", XML_ERROR_PARSING_DECLARATION, doc.ErrorID() ); } { // No matter - before or after successfully parsing a text - // calling XMLDocument::Value() used to cause an assert in debug. // Null must be retured. const char* validXml = "" "" ""; XMLDocument* doc = new XMLDocument(); XMLTest( "XMLDocument::Value() returns null?", NULL, doc->Value() ); doc->Parse( validXml ); XMLTest( "Parse to test XMLDocument::Value()", false, doc->Error()); XMLTest( "XMLDocument::Value() returns null?", NULL, doc->Value() ); delete doc; } { XMLDocument doc; for( int i = 0; i < XML_ERROR_COUNT; i++ ) { const XMLError error = static_cast(i); doc.SetError( error, 0, 0, 0 ); XMLTest( "ErrorID() after SetError()", error, doc.ErrorID() ); const char* name = doc.ErrorName(); XMLTest( "ErrorName() after SetError()", true, name != 0 ); XMLTest( "ErrorName() after SetError()", true, strlen(name) > 0 ); } } { // Evil memory leaks. // If an XMLElement (etc) is allocated via NewElement() (etc.) // and NOT added to the XMLDocument, what happens? // // Previously (buggy): // The memory would be free'd when the XMLDocument is // destructed. But the XMLElement destructor wasn't called, so // memory allocated for the XMLElement text would not be free'd. // In practice this meant strings allocated for the XMLElement // text would be leaked. An edge case, but annoying. // Now: // The XMLElement destructor is called. But the unlinked nodes // have to be tracked using a list. This has a minor performance // impact that can become significant if you have a lot of // unlinked nodes. (But why would you do that?) // The only way to see this bug was in a Visual C++ runtime debug heap // leak tracker. This is compiled in by default on Windows Debug and // enabled with _CRTDBG_LEAK_CHECK_DF parameter passed to _CrtSetDbgFlag(). { XMLDocument doc; doc.NewElement("LEAK 1"); } { XMLDocument doc; XMLElement* ele = doc.NewElement("LEAK 2"); doc.DeleteNode(ele); } } { // Crashing reported via email. const char* xml = "" "voice" "1" "" "" "" "" "" "" "" ""; // It's not a good idea to delete elements as you walk the // list. I'm not sure this technically should work; but it's // an interesting test case. XMLDocument doc; XMLError err = doc.Parse(xml); XMLTest("Crash bug parsing", XML_SUCCESS, err ); XMLElement* playlist = doc.FirstChildElement("playlist"); XMLTest("Crash bug parsing", true, playlist != 0); tinyxml2::XMLElement* entry = playlist->FirstChildElement("entry"); XMLTest("Crash bug parsing", true, entry != 0); while (entry) { tinyxml2::XMLElement* todelete = entry; entry = entry->NextSiblingElement("entry"); playlist->DeleteChild(todelete); }; tinyxml2::XMLElement* blank = playlist->FirstChildElement("blank"); while (blank) { tinyxml2::XMLElement* todelete = blank; blank = blank->NextSiblingElement("blank"); playlist->DeleteChild(todelete); }; tinyxml2::XMLPrinter printer; playlist->Accept(&printer); printf("%s\n", printer.CStr()); // No test; it only need to not crash. // Still, wrap it up with a sanity check int nProperty = 0; for (const XMLElement* p = playlist->FirstChildElement("property"); p; p = p->NextSiblingElement("property")) { nProperty++; } XMLTest("Crash bug parsing", 2, nProperty); } // ----------- Line Number Tracking -------------- { struct TestUtil: XMLVisitor { void TestParseError(const char *testString, const char *docStr, XMLError expected_error, int expectedLine) { XMLDocument doc; const XMLError parseError = doc.Parse(docStr); XMLTest(testString, parseError, doc.ErrorID()); XMLTest(testString, true, doc.Error()); XMLTest(testString, expected_error, parseError); XMLTest(testString, expectedLine, doc.GetErrorLineNum()); }; void TestStringLines(const char *testString, const char *docStr, const char *expectedLines) { XMLDocument doc; doc.Parse(docStr); XMLTest(testString, false, doc.Error()); TestDocLines(testString, doc, expectedLines); } void TestFileLines(const char *testString, const char *file_name, const char *expectedLines) { XMLDocument doc; doc.LoadFile(file_name); XMLTest(testString, false, doc.Error()); TestDocLines(testString, doc, expectedLines); } private: DynArray str; void Push(char type, int lineNum) { str.Push(type); str.Push(char('0' + (lineNum / 10))); str.Push(char('0' + (lineNum % 10))); } bool VisitEnter(const XMLDocument& doc) { Push('D', doc.GetLineNum()); return true; } bool VisitEnter(const XMLElement& element, const XMLAttribute* firstAttribute) { Push('E', element.GetLineNum()); for (const XMLAttribute *attr = firstAttribute; attr != 0; attr = attr->Next()) Push('A', attr->GetLineNum()); return true; } bool Visit(const XMLDeclaration& declaration) { Push('L', declaration.GetLineNum()); return true; } bool Visit(const XMLText& text) { Push('T', text.GetLineNum()); return true; } bool Visit(const XMLComment& comment) { Push('C', comment.GetLineNum()); return true; } bool Visit(const XMLUnknown& unknown) { Push('U', unknown.GetLineNum()); return true; } void TestDocLines(const char *testString, XMLDocument &doc, const char *expectedLines) { str.Clear(); doc.Accept(this); str.Push(0); XMLTest(testString, expectedLines, str.Mem()); } } tester; tester.TestParseError("ErrorLine-Parsing", "\n\n foo \n", XML_ERROR_PARSING, 2); tester.TestParseError("ErrorLine-Declaration", "\n", XML_ERROR_PARSING_DECLARATION, 2); tester.TestParseError("ErrorLine-Mismatch", "\n\n", XML_ERROR_MISMATCHED_ELEMENT, 2); tester.TestParseError("ErrorLine-CData", "\n\n foo bar \n", XML_ERROR_PARSING_TEXT, 3); tester.TestParseError("ErrorLine-Comment", "\n\n\n" // 6 Comment "", // 7 Unknown "D01L01E02A02A03T03E03T04E05T05C06U07"); tester.TestStringLines( "LineNumbers-CRLF", "\r\n" // 1 Doc (arguably should be line 2) "\n" // 2 DecL "\r\n" // 3 Element "\n" // 4 "text contining new line \n" // 5 Text " and also containing crlf \r\n" // 6 "", // 10 Element "D01L02E03T05E07T07E10"); tester.TestFileLines( "LineNumbers-File", "resources/utf8test.xml", "D01L01E02E03A03A03T03E04A04A04T04E05A05A05T05E06A06A06T06E07A07A07T07E08A08A08T08E09T09E10T10"); } // ----------- Performance tracking -------------- { #if defined( _MSC_VER ) __int64 start, end, freq; QueryPerformanceFrequency((LARGE_INTEGER*)&freq); #endif FILE* perfFP = fopen("resources/dream.xml", "r"); XMLTest("Open dream.xml", true, perfFP != 0); fseek(perfFP, 0, SEEK_END); long size = ftell(perfFP); fseek(perfFP, 0, SEEK_SET); char* mem = new char[size + 1]; memset(mem, 0xfe, size); size_t bytesRead = fread(mem, 1, size, perfFP); XMLTest("Read dream.xml", true, uint32_t(size) >= uint32_t(bytesRead)); fclose(perfFP); mem[size] = 0; #if defined( _MSC_VER ) QueryPerformanceCounter((LARGE_INTEGER*)&start); #else clock_t cstart = clock(); #endif bool parseDreamXmlFailed = false; static const int COUNT = 10; for (int i = 0; i < COUNT; ++i) { XMLDocument doc; doc.Parse(mem); parseDreamXmlFailed = parseDreamXmlFailed || doc.Error(); } #if defined( _MSC_VER ) QueryPerformanceCounter((LARGE_INTEGER*)&end); #else clock_t cend = clock(); #endif XMLTest( "Parse dream.xml", false, parseDreamXmlFailed ); delete[] mem; static const char* note = #ifdef DEBUG "DEBUG"; #else "Release"; #endif #if defined( _MSC_VER ) const double duration = 1000.0 * (double)(end - start) / ((double)freq * (double)COUNT); #else const double duration = (double)(cend - cstart) / (double)COUNT; #endif printf("\nParsing dream.xml (%s): %.3f milli-seconds\n", note, duration); } #if defined( _MSC_VER ) && defined( DEBUG ) { _CrtMemCheckpoint( &endMemState ); _CrtMemState diffMemState; _CrtMemDifference( &diffMemState, &startMemState, &endMemState ); _CrtMemDumpStatistics( &diffMemState ); { int leaksBeforeExit = _CrtDumpMemoryLeaks(); XMLTest( "No leaks before exit?", FALSE, leaksBeforeExit ); } } #endif printf ("\nPass %d, Fail %d\n", gPass, gFail); return gFail; }