jobject rho_cast_helper<jobject, CJSONEntry>::operator ()(JNIEnv *env, const CJSONEntry& jsonEntry) { if(jsonEntry.isEmpty() || jsonEntry.isNull()) { return 0; } if (!initConvertor(env)) { return 0; } if(jsonEntry.isString()) { RAWTRACE("Convert to String object"); return rho_cast<jstring>(env, jsonEntry.getString()); } if(jsonEntry.isArray()) { RAWTRACE("Convert to Collection object"); return convertJsonEntryToJavaCollection(jsonEntry); } if(jsonEntry.isObject()) { RAWTRACE("Convert to Map object"); return convertJsonEntryToJavaMap(jsonEntry); } if(jsonEntry.isBoolean()) { RAWTRACE("Convert to Boolean object"); return RhoJniConvertor::getBooleanObject(jsonEntry.getBoolean()); } if(jsonEntry.isInteger()) { RAWTRACE("Convert to Integer object"); return RhoJniConvertor::getIntegerObject(jsonEntry.getInt()); } if(jsonEntry.isFloat()) { RAWTRACE("Convert to Double object"); return RhoJniConvertor::getDoubleObject(jsonEntry.getDouble()); } RAWTRACE("Convert to null"); return 0; }
rho::String js_SQLite3_execute(const rho::String& strObjID, CJSONArray& argv, const rho::String&, const rho::String&, const rho::String& ) { rho::database::ISQLite3* pObj = rho::database::CSQLite3FactoryBase::getInstance()->getModuleByID(strObjID); void* pDB = static_cast<rho::database::CSQLite3Impl*>(pObj)->getDb(); sqlite3 * db = NULL; void **ppDB = &pDB; sqlite3_stmt *statement = NULL; const char* sql = NULL; Vector< rho::Hashtable<rho::String, rho::String> > arRes; rho::apiGenerator::CMethodResult oResult; int nRes = 0; char * szErrMsg = 0; int is_batch = 0; db = (sqlite3 *)rho_db_get_handle(*ppDB); sql = argv[0].getString(); is_batch = argv[1].getBoolean(); RAWTRACE1("db_execute: %s", sql); PROF_START_CREATED("SQLITE"); if ( is_batch ) { PROF_START_CREATED("SQLITE_EXEC"); rho_db_lock(*ppDB); nRes = sqlite3_exec(db, sql, NULL, NULL, &szErrMsg); rho_db_unlock(*ppDB); PROF_STOP("SQLITE_EXEC"); } else { rho_db_lock(*ppDB); PROF_START_CREATED("SQLITE_PREPARE"); nRes = rho_db_prepare_statement(*ppDB, sql, -1, &statement); PROF_STOP("SQLITE_PREPARE"); if ( nRes != SQLITE_OK) { szErrMsg = (char *)sqlite3_errmsg(db); rho_db_unlock(*ppDB); oResult.setArgError( String("could not prepare statement: ") + convertToStringA(nRes) + "; Message: " + (szErrMsg?szErrMsg:"")); return oResult.toJSON(); } if ( argv.getSize() > 2 && argv[2].isArray() ) { int i = 0; CJSONArray args( argv[2] ); for( ; i < args.getSize(); i++ ) { CJSONEntry arg = args[i]; if ( arg.isNull() ) { sqlite3_bind_null(statement, i+1); continue; } if ( arg.isString() ) sqlite3_bind_text(statement, i+1, arg.getString(), strlen(arg.getString()), SQLITE_TRANSIENT); else if (arg.isFloat()) sqlite3_bind_double(statement, i+1, arg.getDouble() ); else if (arg.isInteger()) sqlite3_bind_int64(statement, i+1, arg.getUInt64() ); else if (arg.isBoolean()) sqlite3_bind_int(statement, i+1, arg.getBoolean() ? 1 : 0 ); else { sqlite3_reset(statement); oResult.setArgError( String("Unsupported argument type. Argument number: ") + convertToStringA(i)); return oResult.toJSON(); } } } PROF_START_CREATED("SQLITE_EXEC"); nRes = sqlite3_step(statement); PROF_STOP("SQLITE_EXEC"); while( nRes== SQLITE_ROW ) { int nCount = sqlite3_data_count(statement); int nCol = 0; rho::Hashtable<rho::String, rho::String> hashRec; for(; nCol<nCount; nCol++) { int nColType = sqlite3_column_type(statement,nCol); const char* szColName = sqlite3_column_name(statement,nCol); String colValue; switch(nColType) { case SQLITE_NULL: break; case SQLITE_FLOAT: { double dVal = sqlite3_column_double(statement, nCol); colValue = convertToStringA(dVal); break; } case SQLITE_INTEGER: { sqlite_int64 nVal = sqlite3_column_int64(statement, nCol); colValue = convertToStringA(nVal); break; } default: { sqlite3_value * sqlValue = sqlite3_column_value(statement, nCol); int nLen = sqlite3_value_bytes(sqlValue); const char* szValue = (const char *)sqlite3_value_text(sqlValue); colValue = String(szValue, nLen); break; } } hashRec[szColName] = colValue; } arRes.addElement( hashRec ); PROF_START_CREATED("SQLITE_EXEC"); nRes = sqlite3_step(statement); PROF_STOP("SQLITE_EXEC"); } rho_db_unlock(*ppDB); } if ( statement ) sqlite3_reset(statement); PROF_STOP("SQLITE"); if ( nRes != SQLITE_OK && nRes != SQLITE_ROW && nRes != SQLITE_DONE ) { if ( !szErrMsg ) szErrMsg = (char*)sqlite3_errmsg(db); oResult.setError( String("could not execute statement: ") + convertToStringA(nRes) + "; Message: " + (szErrMsg?szErrMsg:"")); return oResult.toJSON(); } oResult.set(arRes); return oResult.toJSON(); }
jdouble rho_cast_helper<jdouble, CJSONEntry>::operator ()(JNIEnv *env, const CJSONEntry& jsonEntry) { return static_cast<jdouble>(jsonEntry.getDouble()); }