//read high scores XML ===============================
std::string loadScores ( int player )
{
int counter=0;
XMLDocument* doc = new XMLDocument();
doc->LoadFile ( "highscore.xml" );
int errorID = doc->ErrorID();
std::string err = doc->ErrorName();
std::string playerString[20][3];
XMLPrinter printer;
//std::cout << "Test file loaded. ErrorID = "<<errorID<<" "<<err<<std::endl;
if ( errorID!=0 )
return "";
XMLNode* root = doc->FirstChildElement ( "players" );
if ( root == NULL ) {
std::cout<<"error xml root"<<std::endl;
return "";
}
XMLElement* node = root->FirstChildElement ( "player" )->ToElement();
if ( node == NULL ) {
std::cout<<"error xml"<<std::endl;
return "";
}
while ( node->NextSiblingElement() !=NULL && counter<=player ) {
XMLElement* element = node->FirstChildElement ( "name" )->ToElement();
if ( element == NULL ) {
std::cout<<"error xml"<<std::endl;
return "";
}
playerString[counter][0] = element->GetText();
//std::cout <<"playerstring="<<playerString[counter][0]<<std::endl;
element = element->NextSiblingElement ( "score" )->ToElement();
if ( element == NULL ) {
std::cout<<"error xml"<<std::endl;
return "";
}
playerString[counter][1] = element->GetText();
element = element->NextSiblingElement ( "mode" )->ToElement();
if ( element == NULL ) {
std::cout<<"error xml"<<std::endl;
return "";
}
playerString[counter][2] = element->GetText();
node = node->NextSiblingElement ( "player" )->ToElement();
if ( node == NULL ) {
std::cout<<"error xml"<<std::endl;
return "";
}
counter++;
}
return playerString[player][0]+", "+playerString[player][1]+", "
+playerString[player][2];
}
DecompositionPtr GraphMl::decompose(const Instance& instance) const
{
using namespace tinyxml2;
XMLDocument doc;
if(doc.LoadFile(optFile.getValue().c_str()))
error(doc.ErrorName());
XMLElement* graphml = doc.RootElement();
if(!graphml)
error("No root element");
XMLElement* graph = graphml->FirstChildElement("graph");
if(!graph)
error("No graph element");
// XXX We assume the GraphML file has nodes and edges ordered as in a post-order traversal
std::stack<DecompositionPtr> nodes;
XMLElement* rootNode = graph->FirstChildElement("node");
nodes.emplace(new Decomposition(bagOfNode(rootNode), app.getSolverFactory()));
const XMLElement* element = rootNode;
while((element = element->NextSiblingElement()) != nullptr) {
if(strcmp(element->Name(), "node") == 0)
nodes.emplace(new Decomposition(bagOfNode(element), app.getSolverFactory()));
else if(strcmp(element->Name(), "edge") == 0) {
if(nodes.size() < 2)
error("Not enough nodes declared before edges");
const DecompositionPtr to = nodes.top();
nodes.pop();
const DecompositionPtr& from = nodes.top();
from->addChild(std::move(to));
}
else
error("Unexpected element");
}
if(nodes.size() != 1)
error("Not all non-root nodes connected to parents");
DecompositionPtr root = nodes.top();
if(optAddEmptyLeaves.isUsed())
addEmptyLeaves(*root, app);
if(optAddEmptyRoot.isUsed())
root = addEmptyRoot(std::move(root), app);
root->setRoot();
return root;
}
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);
#endif
#if defined(_MSC_VER) || defined(MINGW32) || defined(__MINGW32__)
#if defined __MINGW64_VERSION_MAJOR && defined __MINGW64_VERSION_MINOR
//MINGW64: both 32 and 64-bit
mkdir( "resources/out/" );
#else
_mkdir( "resources/out/" );
#endif
#else
mkdir( "resources/out/", S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH);
#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[] = { "<element />",
"<element></element>",
"<element><subelement/></element>",
"<element><subelement></subelement></element>",
"<element><subelement><subsub/></subelement></element>",
"<!--comment beside elements--><element><subelement></subelement></element>",
"<!--comment beside elements, this time with spaces--> \n <element> <subelement> \n </subelement> </element>",
"<element attrib1='foo' attrib2=\"bar\" ></element>",
"<element attrib1='foo' attrib2=\"bar\" ><subelement attrib3='yeehaa' /></element>",
"<element>Text inside element.</element>",
"<element><b></b></element>",
"<element>Text inside and <b>bolded</b> in the element.</element>",
"<outer><element>Text inside and <b>bolded</b> in the element.</element></outer>",
"<element>This & That.</element>",
"<element attrib='This<That' />",
0
};
for( int i=0; test[i]; ++i ) {
XMLDocument doc;
doc.Parse( test[i] );
doc.Print();
printf( "----------------------------------------------\n" );
}
}
#if 1
{
static const char* test = "<!--hello world\n"
" line 2\r"
" line 3\r\n"
" line 4\n\r"
" line 5\r-->";
XMLDocument doc;
doc.Parse( test );
doc.Print();
}
{
static const char* test = "<element>Text before.</element>";
XMLDocument doc;
doc.Parse( test );
XMLElement* root = doc.FirstChildElement();
XMLElement* newElement = doc.NewElement( "Subelement" );
root->InsertEndChild( newElement );
doc.Print();
}
{
XMLDocument* doc = new XMLDocument();
static const char* test = "<element><sub/></element>";
doc->Parse( test );
delete doc;
}
{
// Test: Programmatic DOM
// Build:
// <element>
// <!--comment-->
// <sub attrib="1" />
// <sub attrib="2" />
// <sub attrib="3" >& Text!</sub>
// <element>
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] );
XMLNode* comment = element->InsertFirstChild( doc->NewComment( "comment" ) );
comment->SetUserData((void*)2);
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", (void*)2 == comment->GetUserData(), true, 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" ) );
int value = 10;
int result = doc->FirstChildElement()->LastChildElement()->QueryIntAttribute( "attrib", &value );
XMLTest( "Programmatic DOM", result, (int)XML_NO_ATTRIBUTE );
XMLTest( "Programmatic DOM", value, 10 );
doc->Print();
{
XMLPrinter streamer;
doc->Print( &streamer );
printf( "%s", streamer.CStr() );
}
{
XMLPrinter streamer( 0, true );
doc->Print( &streamer );
XMLTest( "Compact mode", "<element><sub attrib=\"1\"/><sub/></element>", streamer.CStr(), false );
}
doc->SaveFile( "./resources/out/pretty.xml" );
doc->SaveFile( "./resources/out/compact.xml", true );
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" );
doc.SaveFile( "resources/out/dreamout.xml" );
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( "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 = "<?xml version=\"1.0\" standalone=\"no\" ?>\n"
"<passages count=\"006\" formatversion=\"20020620\">\n"
" <wrong error>\n"
"</passages>";
XMLDocument doc;
doc.Parse( error );
XMLTest( "Bad XML", doc.ErrorID(), XML_ERROR_PARSING_ATTRIBUTE );
}
{
const char* str = "<doc attr0='1' attr1='2.0' attr2='foo' />";
XMLDocument doc;
doc.Parse( str );
XMLElement* ele = doc.FirstChildElement();
int iVal, result;
double dVal;
result = ele->QueryDoubleAttribute( "attr0", &dVal );
XMLTest( "Query attribute: int as double", result, (int)XML_SUCCESS);
XMLTest( "Query attribute: int as double", (int)dVal, 1 );
result = ele->QueryDoubleAttribute( "attr1", &dVal );
XMLTest( "Query attribute: double as double", result, (int)XML_SUCCESS);
XMLTest( "Query attribute: double as double", (int)dVal, 2 );
result = ele->QueryIntAttribute( "attr1", &iVal );
XMLTest( "Query attribute: double as int", result, (int)XML_SUCCESS);
XMLTest( "Query attribute: double as int", iVal, 2 );
result = ele->QueryIntAttribute( "attr2", &iVal );
XMLTest( "Query attribute: not a number", result, (int)XML_WRONG_ATTRIBUTE_TYPE );
result = ele->QueryIntAttribute( "bar", &iVal );
XMLTest( "Query attribute: does not exist", result, (int)XML_NO_ATTRIBUTE );
}
{
const char* str = "<doc/>";
XMLDocument doc;
doc.Parse( str );
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" );
ele->QueryIntAttribute( "int", &iVal );
ele->QueryDoubleAttribute( "double", &dVal );
ele->QueryAttribute( "int", &iVal2 );
ele->QueryAttribute( "double", &dVal2 );
XMLTest( "Attribute match test", ele->Attribute( "str", "strValue" ), "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 );
}
{
XMLDocument doc;
doc.LoadFile( "resources/utf8test.xml" );
// 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" );
// Check the round trip.
int okay = 0;
FILE* saved = fopen( "resources/out/utf8testout.xml", "r" );
FILE* verify = fopen( "resources/utf8testverify.xml", "r" );
if ( saved && verify )
{
okay = 1;
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 );
okay = 0;
break;
}
}
}
if ( saved )
fclose( saved );
if ( verify )
fclose( verify );
XMLTest( "UTF-8: Verified multi-language round trip.", 1, okay );
}
// --------GetText()-----------
{
const char* str = "<foo>This is text</foo>";
XMLDocument doc;
doc.Parse( str );
const XMLElement* element = doc.RootElement();
XMLTest( "GetText() normal use.", "This is text", element->GetText() );
str = "<foo><b>This is text</b></foo>";
doc.Parse( str );
element = doc.RootElement();
XMLTest( "GetText() contained element.", element->GetText() == 0, true );
}
// --------SetText()-----------
{
const char* str = "<foo></foo>";
XMLDocument doc;
doc.Parse( str );
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 = "<foo/>";
doc.Parse( str );
element = doc.RootElement();
element->SetText("The driver");
XMLTest( "SetText() normal use. (self-closing)", "The driver", element->GetText() );
element->SetText("<b>horses</b>");
XMLTest( "SetText() replace with tag-like text.", "<b>horses</b>", element->GetText() );
//doc.Print();
str = "<foo><bar>Text in nested element</bar></foo>";
doc.Parse( str );
element = doc.RootElement();
element->SetText("wolves");
XMLTest( "SetText() prefix to nested non-text children.", "wolves", element->GetText() );
str = "<foo/>";
doc.Parse( str );
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", "1", element->GetText() ); // TODO: should be 'true'?
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;
element->QueryIntAttribute("attrib", &v);
XMLTest("Attribute: int", -100, v, true);
element->QueryAttribute("attrib", &v);
XMLTest("Attribute: int", -100, v, true);
}
{
element->SetAttribute("attrib", unsigned(100));
unsigned v = 0;
element->QueryUnsignedAttribute("attrib", &v);
XMLTest("Attribute: unsigned", unsigned(100), v, true);
element->QueryAttribute("attrib", &v);
XMLTest("Attribute: unsigned", unsigned(100), v, true);
}
{
element->SetAttribute("attrib", BIG);
int64_t v = 0;
element->QueryInt64Attribute("attrib", &v);
XMLTest("Attribute: int64_t", BIG, v, true);
element->QueryAttribute("attrib", &v);
XMLTest("Attribute: int64_t", BIG, v, true);
}
{
element->SetAttribute("attrib", true);
bool v = false;
element->QueryBoolAttribute("attrib", &v);
XMLTest("Attribute: bool", true, v, true);
element->QueryAttribute("attrib", &v);
XMLTest("Attribute: bool", true, v, true);
}
{
element->SetAttribute("attrib", 100.0);
double v = 0;
element->QueryDoubleAttribute("attrib", &v);
XMLTest("Attribute: double", 100.0, v, true);
element->QueryAttribute("attrib", &v);
XMLTest("Attribute: double", 100.0, v, true);
}
{
element->SetAttribute("attrib", 100.0f);
float v = 0;
element->QueryFloatAttribute("attrib", &v);
XMLTest("Attribute: float", 100.0f, v, true);
element->QueryAttribute("attrib", &v);
XMLTest("Attribute: float", 100.0f, v, true);
}
{
element->SetText(BIG);
int64_t v = 0;
element->QueryInt64Text(&v);
XMLTest("Element: int64_t", BIG, v, true);
}
}
// ---------- XMLPrinter stream mode ------
{
{
FILE* printerfp = fopen("resources/printer.xml", "w");
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/printer.xml");
XMLTest("XMLPrinter Stream mode: load", doc.ErrorID(), XML_SUCCESS, 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 = "<xmlElement>"
"<![CDATA["
"I am > the rules!\n"
"...since I make symbolic puns"
"]]>"
"</xmlElement>";
XMLDocument doc;
doc.Parse( str );
doc.Print();
XMLTest( "CDATA parse.", doc.FirstChildElement()->FirstChild()->Value(),
"I am > the rules!\n...since I make symbolic puns",
false );
}
// ----------- CDATA -------------
{
const char* str = "<xmlElement>"
"<![CDATA["
"<b>I am > the rules!</b>\n"
"...since I make symbolic puns"
"]]>"
"</xmlElement>";
XMLDocument doc;
doc.Parse( str );
doc.Print();
XMLTest( "CDATA parse. [ tixml1:1480107 ]", doc.FirstChildElement()->FirstChild()->Value(),
"<b>I am > the rules!</b>\n...since I make symbolic puns",
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 );
XMLNode* childNode1 = parent->InsertAfterChild( childNode0, childText1 );
XMLTest( "Test InsertAfterChild on empty node. ", ( childNode1 == parent->LastChild() ), true );
}
{
// Entities not being written correctly.
// From Lynn Allen
const char* passages =
"<?xml version=\"1.0\" standalone=\"no\" ?>"
"<passages count=\"006\" formatversion=\"20020620\">"
"<psg context=\"Line 5 has "quotation marks" and 'apostrophe marks'."
" It also has <, >, and &, as well as a fake copyright ©.\"> </psg>"
"</passages>";
XMLDocument doc;
doc.Parse( passages );
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 );
FILE* textfile = fopen( "resources/out/textfile.txt", "w" );
if ( textfile )
{
XMLPrinter streamer( textfile );
psg->Accept( &streamer );
fclose( textfile );
}
textfile = fopen( "resources/out/textfile.txt", "r" );
TIXMLASSERT( textfile );
if ( textfile )
{
char buf[ 1024 ];
fgets( buf, 1024, textfile );
XMLTest( "Entity transformation: write. ",
"<psg context=\"Line 5 has "quotation marks" and 'apostrophe marks'."
" It also has <, >, and &, as well as a fake copyright \xC2\xA9.\"/>\n",
buf, false );
fclose( textfile );
}
}
{
// Suppress entities.
const char* passages =
"<?xml version=\"1.0\" standalone=\"no\" ?>"
"<passages count=\"006\" formatversion=\"20020620\">"
"<psg context=\"Line 5 has "quotation marks" and 'apostrophe marks'.\">Crazy &ttk;</psg>"
"</passages>";
XMLDocument doc( false );
doc.Parse( passages );
XMLTest( "No entity parsing.", doc.FirstChildElement()->FirstChildElement()->Attribute( "context" ),
"Line 5 has "quotation marks" and 'apostrophe marks'." );
XMLTest( "No entity parsing.", doc.FirstChildElement()->FirstChildElement()->FirstChild()->Value(),
"Crazy &ttk;" );
doc.Print();
}
{
const char* test = "<?xml version='1.0'?><a.elem xmi.version='2.0'/>";
XMLDocument doc;
doc.Parse( test );
XMLTest( "dot in names", doc.Error(), false );
XMLTest( "dot in names", doc.FirstChildElement()->Name(), "a.elem" );
XMLTest( "dot in names", doc.FirstChildElement()->Attribute( "xmi.version" ), "2.0" );
}
{
const char* test = "<element><Name>1.1 Start easy ignore fin thickness
</Name></element>";
XMLDocument doc;
doc.Parse( test );
XMLText* text = doc.FirstChildElement()->FirstChildElement()->FirstChild()->ToText();
XMLTest( "Entity with one digit.",
text->Value(), "1.1 Start easy ignore fin thickness\n",
false );
}
{
// DOCTYPE not preserved (950171)
//
const char* doctype =
"<?xml version=\"1.0\" ?>"
"<!DOCTYPE PLAY SYSTEM 'play.dtd'>"
"<!ELEMENT title (#PCDATA)>"
"<!ELEMENT books (title,authors)>"
"<element />";
XMLDocument doc;
doc.Parse( doctype );
doc.SaveFile( "resources/out/test7.xml" );
doc.DeleteChild( doc.RootElement() );
doc.LoadFile( "resources/out/test7.xml" );
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 =
"<!-- Somewhat<evil> -->";
XMLDocument doc;
doc.Parse( doctype );
XMLComment* comment = doc.FirstChild()->ToComment();
XMLTest( "Comment formatting.", " Somewhat<evil> ", comment->Value() );
}
{
// Double attributes
const char* doctype = "<element attr='red' attr='blue' />";
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 = "<element att\0r='red' attr='blue' />";
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( "<test></test>" );
const char result[] = { 0x0e, 0 };
XMLTest( "Low entities.", doc.FirstChildElement()->GetText(), result );
doc.Print();
}
{
// Attribute values with trailing quotes not handled correctly
XMLDocument doc;
doc.Parse( "<foo attribute=bar\" />" );
XMLTest( "Throw error with bad end quotes.", doc.Error(), true );
}
{
// [ 1663758 ] Failure to report error on bad XML
XMLDocument xml;
xml.Parse("<x>");
XMLTest("Missing end tag at end of input", xml.Error(), true);
xml.Parse("<x> ");
XMLTest("Missing end tag with trailing whitespace", xml.Error(), true);
xml.Parse("<x></y>");
XMLTest("Mismatched tags", xml.ErrorID(), XML_ERROR_MISMATCHED_ELEMENT);
}
{
// [ 1475201 ] TinyXML parses entities in comments
XMLDocument xml;
xml.Parse("<!-- declarations for <head> & <body> -->"
"<!-- far & away -->" );
XMLNode* e0 = xml.FirstChild();
XMLNode* e1 = e0->NextSibling();
XMLComment* c0 = e0->ToComment();
XMLComment* c1 = e1->ToComment();
XMLTest( "Comments ignore entities.", " declarations for <head> & <body> ", c0->Value(), true );
XMLTest( "Comments ignore entities.", " far & away ", c1->Value(), true );
}
{
XMLDocument xml;
xml.Parse( "<Parent>"
"<child1 att=''/>"
"<!-- With this comment, child2 will not be parsed! -->"
"<child2 att=''/>"
"</Parent>" );
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[] = "<?xml version=\"1.0\" encoding=\"utf-8\"?><feed><![CDATA[Test XMLblablablalblbl";
buf[60] = 239;
buf[61] = 0;
XMLDocument doc;
doc.Parse( (const char*)buf);
}
{
// bug 1827248 Error while parsing a little bit malformed file
// Actually not malformed - should work.
XMLDocument xml;
xml.Parse( "<attributelist> </attributelist >" );
XMLTest( "Handle end tag whitespace", false, xml.Error() );
}
{
// This one must not result in an infinite loop
XMLDocument xml;
xml.Parse( "<infinite>loop" );
XMLTest( "Infinite loop test.", true, true );
}
#endif
{
const char* pub = "<?xml version='1.0'?> <element><sub/></element> <!--comment--> <!DOCTYPE>";
XMLDocument doc;
doc.Parse( pub );
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 );
}
{
// 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 = "<element attrib1=\"1\" attrib2=\"2\" attrib3=\"3\" />";
XMLDocument doc;
doc.Parse( xml );
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)", false, ele->FirstAttribute() ? true : false );
}
{
// Make sure an attribute with a space in it succeeds.
static const char* xml0 = "<element attribute1= \"Test Attribute\"/>";
static const char* xml1 = "<element attribute1 =\"Test Attribute\"/>";
static const char* xml2 = "<element attribute1 = \"Test Attribute\"/>";
XMLDocument doc0;
doc0.Parse( xml0 );
XMLDocument doc1;
doc1.Parse( xml1 );
XMLDocument doc2;
doc2.Parse( xml2 );
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 = "<doc><element attribute='attribute'/><element attribute='attribute'/></doc>";
XMLDocument doc;
doc.Parse( xml );
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 = "<element attrib='bar'><sub>Text</sub></element>";
XMLDocument doc;
doc.Parse( xml );
XMLElement* ele = XMLHandle( doc ).FirstChildElement( "element" ).FirstChild().ToElement();
XMLTest( "Handle, success, mutable", ele->Value(), "sub" );
XMLHandle docH( doc );
ele = docH.FirstChildElement( "none" ).FirstChildElement( "element" ).ToElement();
XMLTest( "Handle, dne, mutable", false, ele != 0 );
}
{
static const char* xml = "<element attrib='bar'><sub>Text</sub></element>";
XMLDocument doc;
doc.Parse( xml );
XMLConstHandle docH( doc );
const XMLElement* ele = docH.FirstChildElement( "element" ).FirstChild().ToElement();
XMLTest( "Handle, success, const", ele->Value(), "sub" );
ele = docH.FirstChildElement( "none" ).FirstChildElement( "element" ).ToElement();
XMLTest( "Handle, dne, const", false, 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<?xml version=\"1.0\" encoding=\"UTF-8\"?>";
XMLTest( "BOM and default declaration", printer.CStr(), result, false );
XMLTest( "CStrSize", printer.CStrSize(), 42, false );
}
{
const char* xml = "<ipxml ws='1'><info bla=' /></ipxml>";
XMLDocument doc;
doc.Parse( xml );
XMLTest( "Ill formed XML", true, doc.Error() );
}
// QueryXYZText
{
const char* xml = "<point> <x>1.2</x> <y>1</y> <z>38</z> <valid>true</valid> </point>";
XMLDocument doc;
doc.Parse( xml );
const XMLElement* pointElement = doc.RootElement();
int intValue = 0;
unsigned unsignedValue = 0;
float floatValue = 0;
double doubleValue = 0;
bool boolValue = false;
pointElement->FirstChildElement( "y" )->QueryIntText( &intValue );
pointElement->FirstChildElement( "y" )->QueryUnsignedText( &unsignedValue );
pointElement->FirstChildElement( "x" )->QueryFloatText( &floatValue );
pointElement->FirstChildElement( "x" )->QueryDoubleText( &doubleValue );
pointElement->FirstChildElement( "valid" )->QueryBoolText( &boolValue );
XMLTest( "QueryIntText", intValue, 1, false );
XMLTest( "QueryUnsignedText", unsignedValue, (unsigned)1, false );
XMLTest( "QueryFloatText", floatValue, 1.2f, false );
XMLTest( "QueryDoubleText", doubleValue, 1.2, false );
XMLTest( "QueryBoolText", boolValue, true, false );
}
{
const char* xml = "<element><_sub/><:sub/><sub:sub/><sub-sub/></element>";
XMLDocument doc;
doc.Parse( xml );
XMLTest( "Non-alpha element lead letter parses.", doc.Error(), false );
}
{
const char* xml = "<element _attr1=\"foo\" :attr2=\"bar\"></element>";
XMLDocument doc;
doc.Parse( xml );
XMLTest("Non-alpha attribute lead character parses.", doc.Error(), false);
}
{
const char* xml = "<3lement></3lement>";
XMLDocument doc;
doc.Parse( xml );
XMLTest("Element names with lead digit fail to parse.", doc.Error(), true);
}
{
const char* xml = "<element/>WOA THIS ISN'T GOING TO PARSE";
XMLDocument doc;
doc.Parse( xml, 10 );
XMLTest( "Set length of incoming data", doc.Error(), false );
}
{
XMLDocument doc;
XMLTest( "Document is initially empty", doc.NoChildren(), true );
doc.Clear();
XMLTest( "Empty is empty after Clear()", doc.NoChildren(), true );
doc.LoadFile( "resources/dream.xml" );
XMLTest( "Document has something to Clear()", doc.NoChildren(), false );
doc.Clear();
XMLTest( "Document Clear()'s", doc.NoChildren(), true );
}
// ----------- Whitespace ------------
{
const char* xml = "<element>"
"<a> This \nis ' text ' </a>"
"<b> This is ' text ' \n</b>"
"<c>This is ' \n\n text '</c>"
"</element>";
XMLDocument doc( true, COLLAPSE_WHITESPACE );
doc.Parse( xml );
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 = "<element> </element>";
XMLDocument doc( true, COLLAPSE_WHITESPACE );
doc.Parse( xml );
XMLTest( "Whitespace all space", true, 0 == doc.FirstChildElement()->FirstChild() );
}
{
// An assert should not fire.
const char* xml = "<element/>";
XMLDocument doc;
doc.Parse( xml );
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 = "<parent><child>abc</child></parent>";
XMLDocument doc;
doc.Parse( xml );
XMLElement* ele = doc.FirstChildElement( "parent")->FirstChildElement( "child");
XMLPrinter printer;
ele->Accept( &printer );
XMLTest( "Printing of sub-element", "<child>abc</child>\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<element/>\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" );
}
{
XMLDocument doc;
doc.LoadFile( "resources/bomtest.xml" );
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 = "<?xml version=\"1.0\" ?>"
"<root>"
"<one>"
"<subtree>"
"<elem>element 1</elem>text<!-- comment -->"
"</subtree>"
"</one>"
"<two/>"
"</root>";
const char* xmlInsideTwo = "<?xml version=\"1.0\" ?>"
"<root>"
"<one/>"
"<two>"
"<subtree>"
"<elem>element 1</elem>text<!-- comment -->"
"</subtree>"
"</two>"
"</root>";
const char* xmlAfterOne = "<?xml version=\"1.0\" ?>"
"<root>"
"<one/>"
"<subtree>"
"<elem>element 1</elem>text<!-- comment -->"
"</subtree>"
"<two/>"
"</root>";
const char* xmlAfterTwo = "<?xml version=\"1.0\" ?>"
"<root>"
"<one/>"
"<two/>"
"<subtree>"
"<elem>element 1</elem>text<!-- comment -->"
"</subtree>"
"</root>";
XMLDocument doc;
doc.Parse(xml);
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 <one> to <two>", xmlInsideTwo, printer1.CStr());
doc.Parse(xml);
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 <one> after <two>", xmlAfterTwo, printer2.CStr(), false);
doc.Parse(xml);
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 <one> after <one>", xmlAfterOne, printer3.CStr(), false);
doc.Parse(xml);
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 <one> after <two>", xmlAfterTwo, printer4.CStr(), false);
}
{
const char* xml = "<svg width = \"128\" height = \"128\">"
" <text> </text>"
"</svg>";
XMLDocument doc;
doc.Parse(xml);
doc.Print();
}
{
// Test that it doesn't crash.
const char* xml = "<?xml version=\"1.0\"?><root><sample><field0><1</field0><field1>2</field1></sample></root>";
XMLDocument doc;
doc.Parse(xml);
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 = "<element attrA='123456789.123456789' attrB='1.001e9' attrC='1.0e-10' attrD='1001000000.000000' attrE='0.1234567890123456789'/>";
const char* xml = "<element/>";
XMLDocument doc;
doc.Parse( xml );
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.",
"<element attrA-f64=\"123456789.12345679\" attrB-f64=\"1001000000\" attrC-f64=\"1e+20\" attrD-f64=\"0.123456789\" attrA-f32=\"1.2345679e+08\" attrB-f32=\"1.001e+09\" attrC-f32=\"1e+20\" attrD-f32=\"0.12345679\"/>\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.
{
XMLDocument doc;
doc.Parse("<?xml version=\"1.0\" encoding=\"UTF-8\"?><test>");
}
{
XMLDocument doc;
doc.Parse("<?xml version=\"1.0\" encoding=\"UTF-8\"?><test>");
doc.Clear();
}
}
{
// If this doesn't assert in DEBUG, all is well.
tinyxml2::XMLDocument doc;
tinyxml2::XMLElement *pRoot = doc.NewElement("Root");
doc.DeleteNode(pRoot);
}
{
// Should not assert in DEBUG
XMLPrinter printer;
}
{
// Issue 291. Should not crash
const char* xml = "�</a>";
XMLDocument doc;
doc.Parse( xml );
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 parsed only as the FirstChild
const char* xml0 = "<?xml version=\"1.0\" ?>"
" <!-- xml version=\"1.1\" -->"
"<first />";
const char* xml1 = "<?xml version=\"1.0\" ?>"
" <?xml version=\"1.1\" ?>"
"<first />";
const char* xml2 = "<first />"
"<?xml version=\"1.0\" ?>";
XMLDocument doc;
doc.Parse(xml0);
XMLTest("Test that the code changes do not affect normal parsing", doc.Error(), false);
doc.Parse(xml1);
XMLTest("Test that the second declaration throws an error", doc.ErrorID(), XML_ERROR_PARSING_DECLARATION);
doc.Parse(xml2);
XMLTest("Test that declaration after a child throws an error", doc.ErrorID(), XML_ERROR_PARSING_DECLARATION);
}
{
// No matter - before or after successfully parsing a text -
// calling XMLDocument::Value() causes an assert in debug.
const char* validXml = "<?xml version=\"1.0\" encoding=\"utf-8\" ?>"
"<first />"
"<second />";
XMLDocument* doc = new XMLDocument();
XMLTest( "XMLDocument::Value() returns null?", NULL, doc->Value() );
doc->Parse( validXml );
XMLTest( "XMLDocument::Value() returns null?", NULL, doc->Value() );
delete doc;
}
{
XMLDocument doc;
for( int i = 0; i < XML_ERROR_COUNT; i++ ) {
doc.SetError( (XMLError)i, 0, 0 );
doc.ErrorName();
}
}
// ----------- Performance tracking --------------
{
#if defined( _MSC_VER )
__int64 start, end, freq;
QueryPerformanceFrequency((LARGE_INTEGER*)&freq);
#endif
FILE* perfFP = fopen("resources/dream.xml", "r");
fseek(perfFP, 0, SEEK_END);
long size = ftell(fp);
fseek(perfFP, 0, SEEK_SET);
char* mem = new char[size + 1];
fread(mem, size, 1, perfFP);
fclose(perfFP);
mem[size] = 0;
#if defined( _MSC_VER )
QueryPerformanceCounter((LARGE_INTEGER*)&start);
#else
clock_t cstart = clock();
#endif
static const int COUNT = 10;
for (int i = 0; i < COUNT; ++i) {
XMLDocument doc;
doc.Parse(mem);
}
#if defined( _MSC_VER )
QueryPerformanceCounter((LARGE_INTEGER*)&end);
#else
clock_t cend = clock();
#endif
delete[] mem;
static const char* note =
#ifdef DEBUG
"DEBUG";
#else
"Release";
#endif
#if defined( _MSC_VER )
printf("\nParsing %s of dream.xml: %.3f milli-seconds\n", note, 1000.0 * (double)(end - start) / ((double)freq * (double)COUNT));
#else
printf("\nParsing %s of dream.xml: %.3f milli-seconds\n", note, (double)(cend - cstart) / (double)COUNT);
#endif
}
#if defined( _MSC_VER ) && defined( DEBUG )
_CrtMemCheckpoint( &endMemState );
_CrtMemState diffMemState;
_CrtMemDifference( &diffMemState, &startMemState, &endMemState );
_CrtMemDumpStatistics( &diffMemState );
#endif
printf ("\nPass %d, Fail %d\n", gPass, gFail);
return gFail;
}
int main()
{
// CURL* curl; //our curl object
//
// struct BufferStruct output; // Create an instance of out BufferStruct to accept LCs output
// output.buffer = NULL;
// output.size = 0;
//
// curl_global_init(CURL_GLOBAL_ALL); //pretty obvious
// curl = curl_easy_init();
//
// curl_easy_setopt(curl, CURLOPT_URL, "http://www.findyourfate.com/rss/horoscope-astrology-feed.asp?mode=view&todate=8/20/2015");
// curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, &WriteMemoryCallback);
// curl_easy_setopt(curl, CURLOPT_WRITEDATA, (void *)&output);
// curl_easy_setopt(curl, CURLOPT_VERBOSE, 1L); //tell curl to output its progress
//
// curl_easy_perform(curl);
// curl_easy_cleanup(curl);
//
// FILE * fp;
// fp = fopen( "example.xml","w");
// cout<<"HEILL!";
// if( !fp )
// return 1;
// fprintf(fp, output.buffer );
// fclose( fp );
//
// if( output.buffer )
// {
// free ( output.buffer );
// output.buffer = 0;
// output.size = 0;
// }
//
// cin.get();
XMLDocument doc;
doc.LoadFile("example.xml");
cout<< "ERROR ID: "<<doc.ErrorName()<<endl;
XMLNode * pRoot = doc.FirstChild();
if (pRoot ==NULL)
cout<<"ERROR!!!"<<endl;
XMLNode* SiblingNode = pRoot->NextSibling();
XMLNode* ChildNode = SiblingNode->FirstChild();
XMLElement *ChildElmt = ChildNode->ToElement();
string strTagName = ChildElmt->Name();
cout<<strTagName<<endl;
XMLNode* Child_2_Node = ChildNode->FirstChild();
XMLElement *Child_2_NodeElmt = Child_2_Node->ToElement();
strTagName = Child_2_NodeElmt->Name();
cout<<strTagName<<endl;
strTagName = Child_2_NodeElmt->GetText();
cout<<strTagName<<endl;
XMLNode* secSibling = Child_2_Node->NextSibling();
XMLElement *Sib_2_NodeElmt = secSibling->ToElement();
strTagName = Sib_2_NodeElmt->Name();
cout<<strTagName<<endl;
strTagName = Sib_2_NodeElmt->GetText();
cout<<strTagName<<endl;
//XMLElement* pElement = pRoot->ToElement();
//if (pElement ==NULL)
// cout<<"ERROR"<<endl;
// XMLElement * pElement = pRoot->FirstChildElement("rss")->FirstChildElement("channel");
// if (pElement ==NULL)
// cout<<"ERROR"<<endl;
// if (pElement ==NULL)
// cout<<"ERROR"<<endl;
// const char* title = pElement->GetText();
// printf( "Name of play (1): %s\n", title );
// cout << endl << pElement->GetText() << endl;
//cin.get();
//curl_global_cleanup();
return 0;
}
bool LevelParser::writeLevel(const Level &level, std::string name)
{
XMLDocument tmxFile;
// Insert root element and its attributes
XMLNode *pRoot = tmxFile.NewElement("map");
tmxFile.InsertFirstChild(pRoot);
XMLElement * pElement = tmxFile.RootElement();
// Another option here would be taking the biggest width, height and tilewidth from level's tilelayers
// width
pElement->SetAttribute("width", level.getWidth());
// height
pElement->SetAttribute("height", level.getHeight());
// tilewidth
pElement->SetAttribute("tilewidth", level.getTileSize());
// tileheight
pElement->SetAttribute("tileheight", level.getTileSize());
// musicID
pElement->SetAttribute("musicID", level.getMusic().c_str());
// write level layers
int tileLayers = 1, objLayers = 1, bckLayers = 1;
for (auto pLayer : level.m_layers)
{
std::string layerID = pLayer->getLayerID();
if (layerID == "OBJECT")// && (dynamic_cast<ObjectLayer*>(pLayer)->getGameObjects()->size() != 0))
{
pElement = tmxFile.NewElement("objectgroup");
writeObjectLayer(pElement, dynamic_cast<ObjectLayer*>(pLayer), "Object Layer " + to_string(objLayers));
objLayers++;
// Insert object layer node
pRoot->InsertEndChild(pElement);
}
else if (layerID == "TILE")
{
pElement = tmxFile.NewElement("layer");
writeTileLayer(pElement, dynamic_cast<TileLayer*>(pLayer), "Tile Layer " + to_string(tileLayers));
tileLayers++;
// Insert tile layer node
pRoot->InsertEndChild(pElement);
}
else if (layerID == "BACKGROUND")
{
pElement = tmxFile.NewElement("background");
writeObjectLayer(pElement, dynamic_cast<BckLayer*>(pLayer), "Background Layer " + to_string(bckLayers));
bckLayers++;
pRoot->InsertEndChild(pElement);
}
}
if (tmxFile.SaveFile(name.c_str()) == XML_NO_ERROR)
{
return true;
}
else
{
std::cout << "An error has ocurred writing file " << name << ". TinyXML error: " << tmxFile.ErrorName() << std::endl;
return false;
}
}
const Material MaterialLoader::loadFromXML(const std::string &path) {
std::string dir = path.substr(0, path.find_last_of("/\\"));
XMLDocument doc;
XMLError error = doc.LoadFile((Environment::getDataDir() + "/textures/" + path + ".gmd").c_str());
if (error != XML_NO_ERROR) {
System::Log(Error, "MaterialLoader") << "XML Error " << doc.ErrorID() << ": " <<
doc.ErrorName() << " in " << path;
}
XMLHandle docHandle(&doc);
XMLElement *root = docHandle.FirstChildElement().ToElement();
XMLHandle rootH(root);
std::string name = root->Attribute("name");
std::string fancyname = root->Attribute("fancyname");
Material mat;
mat.name = name;
mat.fancyname = fancyname;
XMLElement *diffE = rootH.FirstChildElement("diffuse").ToElement();
if (diffE) {
std::string diffP = diffE->Attribute("path");
if (diffP.length() > 0) {
diffP = dir + "/" + diffP;
System::Log(Debug, "MaterialLoader") << mat.name << ": load " << diffP;
mat.diffuse = TextureLoader::getTexture(diffP);
}
} else {
mat.diffuse = TextureLoader::getEmptyDiffuse();
}
XMLElement *normE = rootH.FirstChildElement("normal").ToElement();
if (normE) {
std::string normP = normE->Attribute("path");
if (normP.length() > 0) {
normP = dir + "/" + normP;
System::Log(Debug, "MaterialLoader") << mat.name << ": load " << normP;
mat.normal = TextureLoader::getTexture(normP);
}
} else {
mat.normal = TextureLoader::getEmptyNormal();
}
XMLElement *specE = rootH.FirstChildElement("specular").ToElement();
if (specE) {
std::string specP = specE->Attribute("path");
if (specP.length() > 0) {
specP = dir + "/" + specP;
System::Log(Debug, "MaterialLoader") << mat.name << ": load " << specP;
mat.specular = TextureLoader::getTexture(specP);
}
specE->QueryFloatAttribute("shininess", &mat.shininess);
} else {
mat.specular = TextureLoader::getEmptySpecular();
}
XMLElement *surfaceE = rootH.FirstChildElement("surface").ToElement();
mat.portalable = false;
if (surfaceE) {
surfaceE->QueryBoolAttribute("portalable", &mat.portalable);
}
XMLElement *scaleE = rootH.FirstChildElement("scale").ToElement();
if (scaleE) {
scaleE->QueryFloatAttribute("u", &mat.scaleU);
scaleE->QueryFloatAttribute("v", &mat.scaleV);
}
XMLElement *kindE = rootH.FirstChildElement("kind").ToElement();
if (kindE) {
mat.kind = std::string(kindE->GetText());
}
XMLElement *tagsE = rootH.FirstChildElement("tags").ToElement();
if (tagsE) {
std::string tagStr(tagsE->GetText());
size_t start = 0;
size_t index = tagStr.find(",", start);
while (index != std::string::npos) {
mat.tags.push_back(tagStr.substr(start, index - start));
start = index + 1;
index = tagStr.find(",", start);
}
if (start != std::string::npos) {
mat.tags.push_back(tagStr.substr(start));
}
}
// TODO
return mat;
}
