void CShootManagerSys::LoadShootSolutionSector(int iSector, LPCTSTR szFilename)
{
if(iSector >= m_ShootSolutionSectorArray.Num()) return;
int i;
MSXML2::IXMLDOMDocument2Ptr pDoc;
pDoc.CreateInstance(__uuidof(DOMDocument40));
pDoc->load((_variant_t)szFilename);
// 성공한 슛부터 로드한다.
MSXML2::IXMLDOMNodeListPtr pNodeListSuccess = pDoc->selectNodes(L"root/success");
for(i=0; i<pNodeListSuccess->Getlength(); i++)
{
MSXML2::IXMLDOMNodePtr pNodeSuccess = pNodeListSuccess->Getitem(i);
CShootSolution Solution;
Solution.Create(pNodeSuccess, true, this);
m_ShootSolutionSectorArray[iSector].first.push_back(Solution);
}
MSXML2::IXMLDOMNodeListPtr pNodeListFail = pDoc->selectNodes(L"root/fail");
for(i=0; i<pNodeListFail->Getlength(); i++)
{
MSXML2::IXMLDOMNodePtr pNodeFail = pNodeListFail->Getitem(i);
CShootSolution Solution;
Solution.Create(pNodeFail, false, this);
m_ShootSolutionSectorArray[iSector].second.push_back(Solution);
}
pDoc.Release();
}
MSXML2::IXMLDOMDocument2Ptr CXmlBase::GetXmlDocPtrByFile(LPCTSTR lpszXmlPathFile
, LPCTSTR lpszNamespace)
{
CComBSTR bstrXml;
CString str(_T(""));
HRESULT hr = S_OK;
MSXML2::IXMLDOMDocument2Ptr pDoc;
//载入到xml文档结构中
hr = pDoc.CreateInstance(__uuidof(MSXML2::DOMDocument40));
if (FAILED(hr))
{
// WRITELOG("END, FAILED TO INVOKE pDoc.CreateInstance");
return NULL;
}
pDoc->async = VARIANT_TRUE; //加载方式为“同步”
pDoc->validateOnParse = VARIANT_FALSE; //文档结构有错误时,停止解析。
if (VARIANT_FALSE == pDoc->load(lpszXmlPathFile))
{
//WRITELOG("END, FAILED TO INVOKE pDoc->load(%s)", strXmlPathFile);
return NULL;
}
if (lpszNamespace != NULL)
{
hr = pDoc->setProperty("SelectionLanguage", "XPath");
if (FAILED(hr)) return NULL;
hr = pDoc->setProperty("SelectionNamespaces", lpszNamespace);
if (FAILED(hr)) return NULL;
}
return pDoc;
}
MSXML2::IXMLDOMDocument2Ptr ValidateConfigXML()
{
wchar_t moduleFileName[MAX_PATH] = {0};
if(0 == GetModuleFileNameW(GetModuleHandle(_T("TestConnectSdk.dll")/*"TestConnectAPITool.dll"*/), moduleFileName, MAX_PATH))
throw Workshare::Exception(_T("Failed to obtain the filename of the current module"));
CStdStringW schemaUrl;
schemaUrl.Format(L"res://%s/ConnectAPITestTool.xsd", moduleFileName);
MSXML2::IXMLDOMDocument2Ptr spConfigSchema;
HRESULT hr = spConfigSchema.CreateInstance(__uuidof(MSXML2::DOMDocument60));
if(FAILED(hr))
throw Workshare::ClassNotFoundException(_T("Msxml2.DOMDocument.6.0"), _T("Failed to create an XML dom object."));
if(VARIANT_TRUE != spConfigSchema->load(schemaUrl.c_str()))
ThrowMSXMLParseError(spConfigSchema->parseError, _T("Failed to load 'ConnectAPITestTool.xsd'."));
MSXML2::IXMLDOMSchemaCollection2Ptr spSchemaCollection;
hr = spSchemaCollection.CreateInstance(__uuidof(MSXML2::XMLSchemaCache60));
if(FAILED(hr))
throw Workshare::ClassNotFoundException(_T("Msxml2.XMLSchemaCache.6.0"), _T("Failed to create an XML schema collection."));
hr = spSchemaCollection->add(L"", spConfigSchema.GetInterfacePtr());
if(S_OK != hr)
throw Workshare::Exception(_T("Failed to add 'ConnectAPITestTool.xsd' to schema collection."));
MSXML2::IXMLDOMDocument2Ptr spConfigXML;
hr = spConfigXML.CreateInstance(__uuidof(MSXML2::DOMDocument60));
if(FAILED(hr))
throw Workshare::ClassNotFoundException(_T("Msxml2.DOMDocument.6.0"), _T("Failed to create an XML dom object."));
spConfigXML->async = VARIANT_FALSE;
spConfigXML->resolveExternals = VARIANT_FALSE;
spConfigXML->validateOnParse = VARIANT_FALSE;
spConfigXML->schemas = spSchemaCollection.GetInterfacePtr();
if(VARIANT_TRUE != spConfigXML->load(L"ConnectAPITestTool.xml"))
ThrowMSXMLParseError(spConfigXML->parseError, _T("Failed to load 'ConnectAPITestTool.xml'."));
MSXML2::IXMLDOMParseErrorPtr spError = spConfigXML->validate();
if(S_OK != spError->errorCode)
ThrowMSXMLParseError(spError, _T("Failed to validate 'ConnectAPITestTool.xml'."));
return spConfigXML;
}
MSXML2::IXMLDOMDocument2Ptr setupXMLParser(char *path)
{
HRESULT hr;
MSXML2::IXMLDOMDocument2Ptr xmlDoc;
hr = CoInitialize(NULL);
hr = xmlDoc.CreateInstance(__uuidof(MSXML2::DOMDocument60), NULL, CLSCTX_INPROC_SERVER);
if (FAILED(hr)) return NULL;
if (xmlDoc->load(path) != VARIANT_TRUE) return NULL;
hr = xmlDoc->setProperty("SelectionNamespaces", "xmlns:r='http://www.collada.org/2005/11/COLLADASchema'");
hr = xmlDoc->setProperty("SelectionLanguage", "XPath");
return xmlDoc;
}
CRDPConfig::CRDPConfig(const char *configFile)
{
// Local variables and initializations
HRESULT hResult = S_OK;
char cNodeType;
// set the defaults
mConfigError = false; // TODO - check for config error - report in Capture Fail
mDrive = "C:";
mRoot = "/DATA"; // NOTE: don't use backslash in file names
mInfoDrive = "C:";
mInfoRoot = "/xampp/htdocs/RDP_Data";
mInfoFile = "messages.log";
mMsgLogDrive = "C:";
mMsgLogRoot = "/xampp/htdocs/RDP_Data";
mMsgLogFile = "messages.log";
mTestDataDrive = "C:";
mTestDataRoot = "/DATA/TestData";
//mTestDataEnabled = false;
mDebugLevel = -1;
mMSSListenerPort = 65000;
mDrive = "C:";
mRoot = "\\DATA\\";
mLeadInSize = 21;
mDataBlockSize = 150;
mLeadOutSize = 0;
mNoOfCards = 2;
mNoOfPortsPerCard = 4;
// Read the XML file and update the config values
// Initialize the COM library
hResult = CoInitialize(NULL);
if (FAILED(hResult))
{
MsgLog::Error("RDPConfig module - Failed to initialize COM environment");
return;
}
// Main try block for MSXML DOM operations
try
{
// MSXML COM smart pointers
// Use the Dccument2 class to enable schema validation
MSXML2::IXMLDOMDocument2Ptr spDocInput;
MSXML2::IXMLDOMNodePtr spNodeTemp;
MSXML2::IXMLDOMElementPtr spElemTemp;
MSXML2::IXMLDOMAttributePtr spAttrTemp;
MSXML2::IXMLDOMNodeListPtr spNLChildren;
// Create the COM DOM Document object
hResult = spDocInput.CreateInstance(__uuidof(DOMDocument));
if FAILED(hResult)
{
MsgLog::Error("RDPConfig module - Failed to create Document instance");
return;
}
// Load the document synchronously
spDocInput->async = VARIANT_FALSE;
// Load input document. MSXML default for load is to
// validate while parsing.
hResult = spDocInput->load(configFile);
// Check for load, parse, or validation errors
if( hResult != VARIANT_TRUE)
{
MsgLog::Error("Parsing error reading config file %s", configFile);
return;
} else {
MsgLog::Info("Config file %s opened successfully", configFile);
}
// Get document element
spElemTemp = spDocInput->documentElement;
if (Debug::Enabled(Debug::CONFIG))
std::cout<<std::endl<<"Document Element name: "<<spElemTemp->nodeName<<std::endl;
// Walk through children of document element
// and process according to type
spNodeTemp = spElemTemp->firstChild;
// TODO more checking needed for the config file
while (spNodeTemp != NULL)
{
// Process node depending on type
cNodeType = spNodeTemp->nodeType;
switch (cNodeType)
{
// Comment Node
case NODE_COMMENT:
if (Debug::Enabled(Debug::CONFIG))
std::cout<<"Comment Node:" << std::endl << " "<<_bstr_t(spNodeTemp->nodeValue)<<std::endl;
break;
// Element Node
case NODE_ELEMENT:
{
std::string tempString;
spElemTemp = (IXMLDOMElementPtr) spNodeTemp;
std::string node = (const char *)spElemTemp->nodeName;
Debug::PrintLine(Debug::CONFIG, "Processing %s", node.c_str());
// A note on processing attributes
// MSXML doesn't support the hasAttribute method,
// so we'll try to get the Attribute node, then its value.
// eg
// spAttrTemp = spElemTemp->getAttributeNode("Attribute1");
// if (spAttrTemp != NULL) // test if "get" was successful
// ...
if (node == "MSS") {
spAttrTemp = spElemTemp->getAttributeNode("PORT");
if (spAttrTemp != NULL) {
mMSSListenerPort = (u_short)strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
Debug::PrintLine(Debug::CONFIG, " PORT Value: %d", mMSSListenerPort);
}
} else if (node == "DISK") {
spAttrTemp = spElemTemp->getAttributeNode("DRIVE");
if (spAttrTemp != NULL) {
mDrive = (char *)_bstr_t(spAttrTemp->nodeValue);
Debug::PrintLine(Debug::CONFIG, " DRIVE: %s", mDrive.c_str());
}
spAttrTemp = spElemTemp->getAttributeNode("ROOT");
if (spAttrTemp != NULL) {
mRoot = (char *)_bstr_t(spAttrTemp->nodeValue);
FixPath(mRoot); // replace all backslashes \ with forward slashes /
Debug::PrintLine(Debug::CONFIG, " ROOT: %s", mRoot.c_str());
}
} else if (node == "INFO") {
spAttrTemp = spElemTemp->getAttributeNode("DRIVE");
if (spAttrTemp != NULL) {
mInfoDrive = (char *)_bstr_t(spAttrTemp->nodeValue);
Debug::PrintLine(Debug::CONFIG, " INFO DRIVE: %s", mInfoDrive.c_str());
}
spAttrTemp = spElemTemp->getAttributeNode("ROOT");
if (spAttrTemp != NULL) {
mInfoRoot = (char *)_bstr_t(spAttrTemp->nodeValue);
FixPath(mInfoRoot); // replace all backslashes \ with forward slashes /
Debug::PrintLine(Debug::CONFIG, " INFO ROOT: %s", mInfoRoot.c_str());
}
spAttrTemp = spElemTemp->getAttributeNode("FILE");
if (spAttrTemp != NULL) {
mInfoFile = (char *)_bstr_t(spAttrTemp->nodeValue);
Debug::PrintLine(Debug::CONFIG, " INFO FILE: %s", mInfoFile.c_str());
}
} else if (node == "MSGLOG") {
spAttrTemp = spElemTemp->getAttributeNode("DRIVE");
if (spAttrTemp != NULL) {
mMsgLogDrive = (char *)_bstr_t(spAttrTemp->nodeValue);
Debug::PrintLine(Debug::CONFIG, " MSGLOG DRIVE: %s", mMsgLogDrive.c_str());
}
spAttrTemp = spElemTemp->getAttributeNode("ROOT");
if (spAttrTemp != NULL) {
mMsgLogRoot = (char *)_bstr_t(spAttrTemp->nodeValue);
FixPath(mMsgLogRoot); // replace all backslashes \ with forward slashes /
Debug::PrintLine(Debug::CONFIG, " MSGLOG ROOT: %s", mMsgLogRoot.c_str());
}
spAttrTemp = spElemTemp->getAttributeNode("FILE");
if (spAttrTemp != NULL) {
mMsgLogFile = (char *)_bstr_t(spAttrTemp->nodeValue);
Debug::PrintLine(Debug::CONFIG, " MSGLOG FILE: %s", mMsgLogFile.c_str());
}
} else if (node == "TESTDATA") {
spAttrTemp = spElemTemp->getAttributeNode("DRIVE");
if (spAttrTemp != NULL) {
mTestDataDrive = (char *)_bstr_t(spAttrTemp->nodeValue);
Debug::PrintLine(Debug::CONFIG, " TESTDATA DRIVE: %s", mTestDataDrive.c_str());
}
spAttrTemp = spElemTemp->getAttributeNode("ROOT");
if (spAttrTemp != NULL) {
mTestDataRoot = (char *)_bstr_t(spAttrTemp->nodeValue);
FixPath(mTestDataRoot); // replace all backslashes \ with forward slashes /
Debug::PrintLine(Debug::CONFIG, " MSGLOG ROOT: %s", mTestDataRoot.c_str());
}
//spAttrTemp = spElemTemp->getAttributeNode("ENABLED");
//if (spAttrTemp != NULL) {
// tempString = (char *)_bstr_t(spAttrTemp->nodeValue);
// std::transform(tempString.begin(), tempString.end(), tempString.begin(), std::toupper);
// mTestDataEnabled = (tempString == "YES");
//}
} else if (node == "DEBUG") {
spAttrTemp = spElemTemp->getAttributeNode("LEVEL");
if (spAttrTemp != NULL) {
mDebugLevel = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
Debug::PrintLine(Debug::CONFIG, " DEBUG LEVEL: %d", mDebugLevel);
}
} else if (node == "FIBREOPTICINTERFACE") {
MSXML2::IXMLDOMNodePtr spChildNode = spNodeTemp->firstChild;
int noOfCards = 2; // default to 2 cards
int noOfPortsPerCard = 4; // default to 4 ports per card
while (spChildNode != NULL)
{
if (spChildNode->nodeType == NODE_ELEMENT)
{
MSXML2::IXMLDOMElementPtr spChildElem = (IXMLDOMElementPtr) spChildNode;
std::string nodeName = (const char *)spChildNode->nodeName;
Debug::PrintLine(Debug::CONFIG, " Processing %s", nodeName.c_str());
//Debug::PrintLine(Debug::CONFIG, " Processing %s", (const char *)spChildNode->nodeName);
if (nodeName == "HARDWARE")
{
// eg <HARDWARE CARDS="2" PORTS="4"/>
spAttrTemp = spChildElem->getAttributeNode("CARDS");
if (spAttrTemp != NULL) {
noOfCards = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
}
spAttrTemp = spChildElem->getAttributeNode("PORTS");
if (spAttrTemp != NULL) {
noOfPortsPerCard = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
}
} else if (nodeName == "FORMAT")
{
// eg <FORMAT LEADIN="21" DATABLOCK="150" LEADOUT="0"/>
spAttrTemp = spChildElem->getAttributeNode("LEADIN");
if (spAttrTemp != NULL) {
mLeadInSize = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
if (mLeadInSize < 0) mConfigError = true;
}
spAttrTemp = spChildElem->getAttributeNode("DATABLOCK");
if (spAttrTemp != NULL) {
mDataBlockSize = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
if (mDataBlockSize < 0) mConfigError = true;
}
spAttrTemp = spChildElem->getAttributeNode("LEADOUT");
if (spAttrTemp != NULL) {
mLeadOutSize = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
if (mLeadOutSize < 0) mConfigError = true;
}
if (mLeadInSize+mDataBlockSize+mLeadOutSize > Global::MAX_IQ_SAMPLES) mConfigError = true;
} else if (nodeName == "DEVICE")
{
// eg <DEVICE CARD="0" PORT="2" ID="sfm_0_sfpdp_2" READ="YES" WRITE="NO"/>
int card, port, fibre;
bool bRead, bWrite;
std::string id;
spAttrTemp = spChildElem->getAttributeNode("CARD");
if (spAttrTemp != NULL) {
card = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
}
spAttrTemp = spChildElem->getAttributeNode("PORT");
if (spAttrTemp != NULL) {
port = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
}
spAttrTemp = spChildElem->getAttributeNode("FIBRE");
// TODO check that fibre value runs from 0 up to n
if (spAttrTemp != NULL) {
fibre = strtol((char *)_bstr_t(spAttrTemp->nodeValue), NULL, 0);
}
spAttrTemp = spChildElem->getAttributeNode("ID");
if (spAttrTemp != NULL) {
id = (char *)_bstr_t(spAttrTemp->nodeValue);
}
spAttrTemp = spChildElem->getAttributeNode("READ");
if (spAttrTemp != NULL) {
tempString = (char *)_bstr_t(spAttrTemp->nodeValue);
std::transform(tempString.begin(), tempString.end(), tempString.begin(), std::toupper);
bRead = (tempString == "YES");
}
spAttrTemp = spChildElem->getAttributeNode("WRITE");
if (spAttrTemp != NULL) {
tempString = (char *)_bstr_t(spAttrTemp->nodeValue);
std::transform(tempString.begin(), tempString.end(), tempString.begin(), std::toupper);
bWrite = (tempString == "YES");
}
Debug::PrintLine(Debug::CONFIG, "\tCARD = %d", card);
Debug::PrintLine(Debug::CONFIG, "\tPORT = %d", port);
Debug::PrintLine(Debug::CONFIG, "\tFIBRE = %d", fibre);
Debug::PrintLine(Debug::CONFIG, "\tid = %s", id.c_str());
Debug::PrintLine(Debug::CONFIG, "\tRead? = %s", (bRead)?"Yes":"No");
Debug::PrintLine(Debug::CONFIG, "\tWrite? = %s", (bWrite)?"Yes":"No");
if ( (card >= 0) && (card < Global::MAX_CARDS) // card is 0..max-1 ?
&& (port >= 0) && (port < Global::MAX_PORTS) // port is 0..max-1 ?
&& (bRead || bWrite) // either reader or writer or both ?
) {
CDevice device(card, port, bRead, bWrite, fibre, id);
mDevice.push_back(device);
}
} else if (nodeName == "PROCESSING")
{
// eg <PROCESSING HEADERCRCCHECK="YES"
// DATACRCCHECK="YES"
// HEADERMARK="7FACE0FF"
// />
std::string mark;
spAttrTemp = spChildElem->getAttributeNode("HEADERCRCCHECK");
if (spAttrTemp != NULL) {
tempString = (char *)_bstr_t(spAttrTemp->nodeValue);
std::transform(tempString.begin(), tempString.end(), tempString.begin(), std::toupper);
mHeaderCRCCheck = (tempString == "YES");
}
spAttrTemp = spChildElem->getAttributeNode("DATACRCCHECK");
if (spAttrTemp != NULL) {
tempString = (char *)_bstr_t(spAttrTemp->nodeValue);
std::transform(tempString.begin(), tempString.end(), tempString.begin(), std::toupper);
mDataCRCCheck = (tempString == "YES");
}
spAttrTemp = spChildElem->getAttributeNode("HEADERMARK");
if (spAttrTemp != NULL) {
tempString = (char *)_bstr_t(spAttrTemp->nodeValue);
if (tempString.length() != 8) {
MsgLog::Error("HEADERMARK conversion error - %s", tempString.c_str());
mConfigError = true;
} else {
//tempString =
for (int i = 0; i < sizeof(DWORD); i++) {
int val;
std::string s = tempString.substr(2*i, 2);
if (Global::FromString(val, s, std::hex)) {
val &= 0xFF;
Global::headerBOM1.c[i] = val;
Global::headerBOM2.c[sizeof(DWORD) - i - 1] = val;
} else {
mConfigError = true;
MsgLog::Error("HEADERMARK conversion error - %s", tempString.c_str());
}
}
}
}
Debug::PrintLine(Debug::CONFIG, "\tHEADERCRCCHECK? = %s", (mHeaderCRCCheck)?"Yes":"No");
Debug::PrintLine(Debug::CONFIG, "\tDATACRCCHECK? = %s", (mDataCRCCheck)?"Yes":"No");
Debug::PrintLine(Debug::CONFIG, "\tHeader Word = 0x%02x%02x%02x%02x",
Global::headerBOM1.c[0], Global::headerBOM1.c[1], Global::headerBOM1.c[2], Global::headerBOM1.c[3]);
}
}
spChildNode = spChildNode->nextSibling; // Get the next child of the Document Element
//Debug::PrintLine(Debug::CONFIG, "\tlength of mDevice is %d", mDevice.size());
}
mNoOfCards = ( (noOfCards > 0) && (noOfCards <= Global::MAX_CARDS) ) ? noOfCards : 2;
mNoOfPortsPerCard = ( (noOfPortsPerCard > 0) && (noOfPortsPerCard <= Global::MAX_PORTS) ) ? noOfPortsPerCard : 4;
Debug::PrintLine(Debug::CONFIG, "Number of cards = %d", mNoOfCards);
Debug::PrintLine(Debug::CONFIG, "Number of ports per card = %d", mNoOfPortsPerCard);
} else {
if (Debug::Enabled(Debug::CONFIG))
std::cout << "Ignoring element: " << spElemTemp->nodeName << std::endl;
}
}
// Everything else allowed by the schema
default:
// Skip unexpected processing instructions
// and white space text nodes
break;
} // End of switch block
spNodeTemp = spNodeTemp->nextSibling; // Get the next child of the Document Element
} // End of while block
} // End of try block
catch (_com_error &e) // Catch COM exceptions
{
std::cerr << "COM Error" << std::endl;
std::cerr << "Message = " << e.ErrorMessage() << std::endl;
return;
}
CoUninitialize();
Debug::SetLevel(mDebugLevel);
}
void CShootManagerSys::LoadShootSolutionSet(LPCTSTR szFilename)
{
int i;
MSXML2::IXMLDOMDocument2Ptr pDoc;
pDoc.CreateInstance(__uuidof(DOMDocument40));
pDoc->load((_variant_t)szFilename);
// 시뮬레이터에서 사용하는 거리 범위들을 로드한다.
MSXML2::IXMLDOMNodeListPtr pNodeListDistance;
MSXML2::IXMLDOMNodePtr pNodeDistance;
float fDistance;
pNodeListDistance = pDoc->selectNodes(L"root/distance_range/distance");
for(i=0; i<pNodeListDistance->Getlength(); i++)
{
pNodeDistance = pNodeListDistance->Getitem(i);
_bstr_t distance = pNodeDistance->GetnodeTypedValue();
sscanf((LPCTSTR)distance, "%f", &fDistance);
m_DistanceList.push_back(fDistance);
}
// 시뮬레이터에서 사용하는 각도 범위들을 로드한다.
// 여기서 각도는 (골대 - 슈터) 와 양의 z 축 사이의 각도를 말한다.
// degree 로 저장되어 있으므로 Angle 로 변환시킨다.
MSXML2::IXMLDOMNodeListPtr pNodeListAngle;
MSXML2::IXMLDOMNodePtr pNodeAngle;
float fDegree;
int iAngle;
pNodeListAngle = pDoc->selectNodes(L"root/angle_range/degree");
for(i=0; i<pNodeListAngle->Getlength(); i++)
{
pNodeAngle = pNodeListAngle->Getitem(i);
_bstr_t degree = pNodeAngle->GetnodeTypedValue();
sscanf((LPCTSTR)degree, "%f", &fDegree);
iAngle = Degree2Angle(fDegree); // degree 에서 Angle 로 변환한다.
m_AngleList.push_back(iAngle);
}
// 전체 섹터 개수를 계산하고 여기에 맞게 메모리를 생성한다.
int iNumSector = m_DistanceList.size() * (m_AngleList.size() + 1) + 6;
for(i=0; i<iNumSector; i++)
{
ShootSolutionSector *pShootSolutionSector = new (m_ShootSolutionSectorArray) ShootSolutionSector;
}
// 각 섹터별로 섹터안의 Shoot Solution 들을 로드한다.
MSXML2::IXMLDOMNodeListPtr pNodeListSector = pDoc->selectNodes(L"root/sector");
MSXML2::IXMLDOMNodePtr pNodeSector;
MSXML2::IXMLDOMNodePtr pNodeIndex;
MSXML2::IXMLDOMNodePtr pNodePath;
for(i=0; i<pNodeListSector->Getlength(); i++)
{
pNodeSector = pNodeListSector->Getitem(i);
pNodeIndex = pNodeSector->selectSingleNode(L"index");
pNodePath = pNodeSector->selectSingleNode(L"path");
_bstr_t index = pNodeIndex->GetnodeTypedValue();
_bstr_t path = pNodePath->GetnodeTypedValue();
int iIndex = atoi((LPCTSTR)index);
SString sFilePath = szFilename;
sFilePath = DGetPathOnly(sFilePath);
sFilePath += "\\";
sFilePath += (LPCTSTR)path;
// sFilePath.Format("%s\\%s\\%s", g_szCurrentPath, g_szSimulatorPath, (LPCTSTR)path);
LoadShootSolutionSector(iIndex, (LPCTSTR)sFilePath);
}
pDoc.Release();
}
bool Engine::LoadContent()
{
// Setup our SpriteBatch.
m_pSpriteBatch = new DirectX::SpriteBatch(d3dContext_);
m_pFont->Initialize(d3dDevice_, std::wstring(L"Calibri18.spritefont"));
m_pSprite->Initialize(d3dDevice_, std::wstring(L"Test.dds"), 10.0f, 10.0f);
m_textToDisplay = Text();
m_textToDisplay.Initialize(std::wstring(L"Sarah"), DirectX::SimpleMath::Vector2(200.0f, 200.0f));
try
{
MSXML2::IXMLDOMDocument2Ptr xmlDoc;
HRESULT hr = xmlDoc.CreateInstance(__uuidof(MSXML2::DOMDocument60), NULL, CLSCTX_INPROC_SERVER);
teamStats.InitializeTeam("Players.xml");
// Make sure the file was loaded correctly before trying to load the players.
if (xmlDoc->load("Players.xml") == VARIANT_TRUE)
{
//xmlDoc->setProperty("SelectionLanguage", "XPath");
//teamStats.LoadPlayers(xmlDoc);
}
if (xmlDoc->load("input.xml") != VARIANT_TRUE)
{
DXTRACE_MSG("Unable to load input.xml\n");
xmlDoc->save("input.xml");
//xmlDoc->
}
else
{
DXTRACE_MSG("XML was successfully loaded \n");
xmlDoc->setProperty("SelectionLanguage", "XPath");
MSXML2::IXMLDOMNodeListPtr wheels = xmlDoc->selectNodes("/Car/Wheels/*");
DXTRACE_MSG("Car has %u wheels\n", wheels->Getlength());
DXTRACE_MSG(wheels->Getitem(0)->text);
//ptr->
MSXML2::IXMLDOMNodePtr node;
node = xmlDoc->createNode(MSXML2::NODE_ELEMENT, ("Engine"), (""));
node->text = ("Engine 1.0");
xmlDoc->documentElement->appendChild(node);
hr = xmlDoc->save("output.xml");
if (SUCCEEDED(hr))
{
DXTRACE_MSG("output.xml successfully saved\n");
}
}
}
catch (_com_error &e)
{
DXTRACE_MSG(e.ErrorMessage());
}
return true;
}