/*
* Class: uniquantum_search_SearchModule
* Method: GetCatePoiCount
* Signature: (Ljava/lang/String;IZ)I
*/
JNIEXPORT jint JNICALL Java_kr_co_uniquantum_search_SearchModule_GetCatePoiCount
(JNIEnv * env, jobject obj, jstring code, jint cateType, jboolean addData )
{
m_pPoiDatas = NULL;
//m_pPoiDatasIterator = NULL;
m_bChangedPoiIterator = true;
g_poiHeaderIdx = -1;
int nSidoIdx = -1;
DONG_DATA * pDong = NULL;
u32 nMeshCode = 0;
CString strCode( env, &code );
char * cateCode = ( char * ) strCode.toString();
char * pCode1 = strtok( cateCode, "-");
char * pCode2 = strtok( NULL, "-");
char * pCode3 = strtok( NULL, "-");
u16 code1 = pCode1[0] - 'A';
u16 code2 = (u16) atoi( pCode2 );
u16 code3 = pCode3 == NULL ? 0 : strlen( pCode3 ) < 1 ? 0 : (u16)atoi( pCode3 );
switch( cateType )
{
case 0 : // 시도
// 현재 시도가 어딘지 찾는다.
nSidoIdx = 0;
m_pPoiDatas = g_pSearchModule->SearchPoiCateSido( nSidoIdx, code1, code2, code3, !addData );
break;
case 1 : // 동
// 현재 동이 어딘지 찾는다.
pDong = NULL;
m_pPoiDatas = g_pSearchModule->SearchPoiCateDong( pDong, code1, code2, code3, !addData );
break;
case 2 : // 메쉬
// 현재 메쉬 주변값을 찾는다.
nMeshCode = 0;
m_pPoiDatas = g_pSearchModule->SearchPoiCateMesh( nMeshCode, code1, code2, code3, !addData );
break;
}
if( m_pPoiDatas == NULL ) return 0;
return (jint)(*m_pPoiDatas).size();
}
int CStockManager::RecvServerCalcData(AnsSeverCalculate* pData)
{
if (pData == NULL || ::IsBadReadPtr(pData, sizeof(AnsSeverCalculate)))
{
return -1;
}
CSingleLock lock(&m_mutexStock);
if (lock.Lock())
{
int nCount = pData->m_nSize;
SeverCalculateData* pSrvCalData = (SeverCalculateData*)pData->m_cData;
for (int i = 0; i < nCount; i ++)
{
SeverCalculateData* pDataCur = &pSrvCalData[i];
if ( pDataCur == NULL )
continue;
int nIndex = -1;
char cCode[7];
memset(cCode,0,7);
strncpy_s(cCode,pDataCur->m_cCode,6);
CString strCode(cCode);
m_mapIndex.Lookup(strCode, (CObject*&)nIndex);
if ( nIndex >= 0 && nIndex < m_ayStocks.GetCount())
{
CHSDSStockInfoIntact* pStock = m_ayStocks.GetAt(nIndex);
if (pStock != NULL && memcmp(pStock->m_stockInfo.m_ciStockCode.m_cCode, pDataCur->m_cCode, sizeof(pStock->m_stockInfo.m_ciStockCode.m_cCode)) == 0
&& pStock->m_stockInfo.m_ciStockCode.m_cCodeType == pDataCur->m_cCodeType)
{
pStock->m_stockInfo.m_fDownPrice = pDataCur->m_fDownPrice;
pStock->m_stockInfo.m_fUpPrice = pDataCur->m_fUpPrice;
}
}
}
lock.Unlock();
}
return 0;
}
Shader(GLenum type, const std::string &filename, const std::string &defines)
{
RefCountedPtr<FileSystem::FileData> filecode = FileSystem::gameDataFiles.ReadFile(filename);
if (!filecode.Valid())
Error("Could not load %s", filename.c_str());
std::string strCode(filecode->AsStringRange().ToString());
size_t found = strCode.find("#include");
while (found != std::string::npos)
{
// find the name of the file to include
const size_t begFilename = strCode.find_first_of("\"", found + 8) + 1;
const size_t endFilename = strCode.find_first_of("\"", begFilename + 1);
const std::string incFilename = strCode.substr(begFilename, endFilename - begFilename);
// check we haven't it already included it (avoids circular dependencies)
const std::set<std::string>::const_iterator foundIt = previousIncludes.find(incFilename);
if (foundIt != previousIncludes.end()) {
Error("Circular, or multiple, include of %s\n", incFilename.c_str());
}
else {
previousIncludes.insert(incFilename);
}
// build path for include
const std::string incPathBuffer = stringf("shaders/opengl/%0", incFilename);
// read included file
RefCountedPtr<FileSystem::FileData> incCode = FileSystem::gameDataFiles.ReadFile(incPathBuffer);
assert(incCode.Valid());
if (incCode.Valid()) {
// replace the #include and filename with the included files text
strCode.replace(found, (endFilename + 1) - found, incCode->GetData(), incCode->GetSize());
found = strCode.find("#include");
}
else {
Error("Could not load %s", incPathBuffer.c_str());
}
}
// Store the modified text with the included files (if any)
const StringRange code(strCode.c_str(), strCode.size());
// Build the final shader text to be compiled
AppendSource(s_glslVersion);
AppendSource(defines.c_str());
if (type == GL_VERTEX_SHADER) {
AppendSource("#define VERTEX_SHADER\n");
} else {
AppendSource("#define FRAGMENT_SHADER\n");
}
AppendSource(code.StripUTF8BOM());
#if 0
static bool s_bDumpShaderSource = true;
if (s_bDumpShaderSource) {
const char SHADER_OUT_DIR_NAME[] = "shaders";
const char SHADER_OGL_OUT_DIR_NAME[] = "shaders/opengl";
FileSystem::userFiles.MakeDirectory(SHADER_OUT_DIR_NAME);
FileSystem::userFiles.MakeDirectory(SHADER_OGL_OUT_DIR_NAME);
const std::string outFilename(FileSystem::GetUserDir() + "/" + filename);
FILE *tmp = fopen(outFilename.c_str(), "wb");
if(tmp) {
Output("%s", filename);
for( Uint32 i=0; i<blocks.size(); i++ ) {
const char *block = blocks[i];
const GLint sizes = block_sizes[i];
if(block && sizes>0) {
fprintf(tmp, "%.*s", sizes, block);
}
}
fclose(tmp);
} else {
Output("Could not open file %s", outFilename.c_str());
}
}
#endif
shader = glCreateShader(type);
if(glIsShader(shader)!=GL_TRUE)
throw ShaderException();
Compile(shader);
// CheckGLSL may use OS::Warning instead of Error so the game may still (attempt to) run
if (!check_glsl_errors(filename.c_str(), shader))
throw ShaderException();
};
PIN_GameControllerManager::PIN_GameControllerManager(PIN_ControlType* controlType, PIN_MappingList* mappingList, PIN_ControllerBaseList* masterControllerList )
: PIN_ManagerBase(controlType, mappingList, masterControllerList)
{
InitEvents();
std::string strKeyList(/*"\\b(?:"*/"");
std::string strAxisList("");
bool firstItem = true;
for(int x = SDL_CONTROLLER_BUTTON_A; x < SDL_CONTROLLER_BUTTON_MAX; x++)
{
PIN_String strButton = SDL_GameControllerGetStringForButton((SDL_GameControllerButton)x);
if(!boost::equals(strButton,""))
{
if(!firstItem)
{
strKeyList += "|";
}
else
{
firstItem = false;
}
std::string strCode(strButton);
strCode = PAUX_Extensors::regex_escape(strCode);
strKeyList+= "(?:\\b" + strCode + "\\b)";
}
}
firstItem = true;
for(int x = SDL_CONTROLLER_AXIS_LEFTX; x < SDL_CONTROLLER_AXIS_MAX; x++)
{
PIN_String strAxis = SDL_GameControllerGetStringForAxis((SDL_GameControllerAxis)x);
if(!boost::equals(strAxis,""))
{
strKeyList += "|";
if(!firstItem)
{
strAxisList += "|";
}
else
{
firstItem = false;
}
std::string strCode(strAxis);
strCode = PAUX_Extensors::regex_escape(strCode);
strCode = "(?:(?<func>POS|NEG)\\()?(?<axis>\\b"+strCode+"\\b)\\)?";//
//strCode = "(?:(?:(<func>POS|NEG)\\()?(<axis>" + strCode + ")(?'func'\\))?)";
//printf("Axis code: %s\n",strCode.c_str());
strAxisList += strCode;
strKeyList+= strCode;
}
}
//strKeyList+=")\\b";
_keyListRegex = boost::regex(strKeyList,boost::regex::perl|boost::regex::icase);
_regexAxisString = boost::regex(strAxisList,boost::regex::perl|boost::regex::icase);
//printf("Main regex: %s\n",_keyListRegex.str().c_str());
//printf("Axis regex: %s\n",_regexAxisString.str().c_str());
}
PIN_KeyboardManager::PIN_KeyboardManager(PIN_ControlType* controlType, PIN_MappingList* mappingList, PIN_ControllerBaseList* masterControllerList)
: PIN_ManagerBase(controlType, mappingList, masterControllerList)
{
std::string strKeyList("\\b(?:");
bool firstItem = true;
for(int x = SDL_SCANCODE_A; x <= SDL_SCANCODE_SLEEP; x++)
{
PIN_String strScanCode = SDL_GetScancodeName((SDL_Scancode)x);
if(!boost::equals(strScanCode,""))
{
if(!firstItem)
{
strKeyList += "|";
}
else
{
firstItem = false;
}
std::string strCode(strScanCode);
strCode = PAUX_Extensors::regex_escape(strCode);
strKeyList+= "(?:" + strCode + ")";
}
}
strKeyList+=")\\b";
_keyListRegex = boost::regex(strKeyList,boost::regex::perl|boost::regex::icase);
PIN_KeyList lstDef = controlType->DEFAULT_KEYS;
if(_mappingList->size() == 0)
{
printf("No keyboard mappings. Assuming 1 controller.\n");
PIN_KeyboardController* ctrl = CreateKeyboardController();
ctrl->GlobalKeys[PIN_GK_UP] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_UP));
ctrl->GlobalKeys[PIN_GK_DOWN] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_DOWN));
ctrl->GlobalKeys[PIN_GK_LEFT] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_LEFT));
ctrl->GlobalKeys[PIN_GK_RIGHT] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_RIGHT));
ctrl->GlobalKeys[PIN_GK_ENTER] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_RETURN));
ctrl->GlobalKeys[PIN_GK_BACK] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_BACKSPACE));
printf("Setting control type definitions...\n");
AssignKey(&(ctrl->GlobalKeys),PIN_GK_UP,lstDef,PIN_KEY_UP);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_DOWN,lstDef,PIN_KEY_DOWN);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_LEFT,lstDef,PIN_KEY_LEFT);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_RIGHT,lstDef,PIN_KEY_RIGHT);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_ENTER,lstDef,PIN_KEY_ENTER);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_BACK,lstDef,PIN_KEY_BACK);
AddController(ctrl);
printf("Done.\n");
}
else
{
PIN_MappingList::iterator it;
for(it = _mappingList->begin(); it!=_mappingList->end(); ++it)
{
PIN_Mapping* m = *it;
PIN_KeyList m_keys = m->DEFAULT_KEYS;
PIN_KeyboardController* ctrl = CreateKeyboardController();
printf("Creating controller ID 0x%xl for '%s'...\n",ctrl->ControllerID, m->NAME);
ctrl->SourceMapping = m;
ctrl->GlobalKeys[PIN_GK_UP] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_UP));
ctrl->GlobalKeys[PIN_GK_DOWN] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_DOWN));
ctrl->GlobalKeys[PIN_GK_LEFT] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_LEFT));
ctrl->GlobalKeys[PIN_GK_RIGHT] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_RIGHT));
ctrl->GlobalKeys[PIN_GK_ENTER] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_RETURN));
ctrl->GlobalKeys[PIN_GK_BACK] = BuildComboSet(SDL_GetScancodeName(SDL_SCANCODE_BACKSPACE));
printf("Setting control type definitions...\n");
AssignKey(&(ctrl->GlobalKeys),PIN_GK_UP,lstDef,PIN_KEY_UP);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_DOWN,lstDef,PIN_KEY_DOWN);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_LEFT,lstDef,PIN_KEY_LEFT);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_RIGHT,lstDef,PIN_KEY_RIGHT);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_ENTER,lstDef,PIN_KEY_ENTER);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_BACK,lstDef,PIN_KEY_BACK);
printf("Setting mapping-specific definitions...\n");
AssignKey(&(ctrl->GlobalKeys),PIN_GK_UP,m_keys,PIN_KEY_UP);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_DOWN,m_keys,PIN_KEY_DOWN);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_LEFT,m_keys,PIN_KEY_LEFT);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_RIGHT,m_keys,PIN_KEY_RIGHT);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_ENTER,m_keys,PIN_KEY_ENTER);
AssignKey(&(ctrl->GlobalKeys),PIN_GK_BACK,m_keys,PIN_KEY_BACK);
AddController(ctrl);
}
}
}
