package com.netsdk.demo.customize.rtsc; import static com.netsdk.lib.Utils.getOsPrefix; import java.io.File; import com.netsdk.demo.customize.analyseTaskDemo.AnalyseTaskUtils; import com.netsdk.demo.util.CaseMenu; import com.netsdk.lib.NetSDKLib; import com.netsdk.lib.ToolKits; import com.netsdk.lib.callback.impl.DefaultDisconnectCallback; import com.netsdk.lib.callback.impl.DefaultHaveReconnectCallBack; import com.netsdk.lib.enumeration.EM_BACKUP_ERROR_CODE; import com.netsdk.lib.enumeration.EM_CTRL_SCHEME; import com.netsdk.lib.enumeration.NET_EM_CFG_OPERATE_TYPE; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_CHANNELS_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_CROSSLIST_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_MANAGE_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_NIGHTASK_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_OPTIMIZES_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_OVERFLOW_CONTROL_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_PEDDESTRAIN_PRIORITY_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_PEDDETECTOR_LIST_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_PLANS_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_VARLANELIST_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_VARLANE_MANAGEMENT_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_SCH_VEHICLE_DETECTORLIST_INFO; import com.netsdk.lib.structure.NET_CFG_RTSC_TEMP_SCH_INFO; import com.netsdk.lib.structure.NET_CHANNELS_INFO; import com.netsdk.lib.structure.NET_CROSS_LIST_INFO; import com.netsdk.lib.structure.NET_DAY_ACTIONS_INFO; import com.netsdk.lib.structure.NET_DAY_PLANS_INFO; import com.netsdk.lib.structure.NET_IN_SET_BACKUP_MODE; import com.netsdk.lib.structure.NET_OUT_SET_BACKUP_MODE; import com.netsdk.lib.structure.NET_PEDESTRAIN_PRIORITY_INFO; import com.sun.jna.Memory; import com.sun.jna.Pointer; import com.sun.jna.ptr.IntByReference; public class RtscConfigDemo { // SDk对象初始化 public static final NetSDKLib netsdk = NetSDKLib.NETSDK_INSTANCE; public static final NetSDKLib configsdk = NetSDKLib.CONFIG_INSTANCE; // 判断是否初始化 private static boolean bInit = false; // 判断log是否打开 private static boolean bLogOpen = false; // 设备信息 private NetSDKLib.NET_DEVICEINFO_Ex deviceInfo = new NetSDKLib.NET_DEVICEINFO_Ex(); // 登录句柄 private NetSDKLib.LLong m_hLoginHandle = new NetSDKLib.LLong(0); // 回调函数需要是静态的,防止被系统回收 // 断线回调 private static NetSDKLib.fDisConnect disConnectCB = DefaultDisconnectCallback.getINSTANCE(); // 重连回调 private static NetSDKLib.fHaveReConnect haveReConnectCB = DefaultHaveReconnectCallBack.getINSTANCE(); // 编码格式 public static String encode; static { String osPrefix = getOsPrefix(); if (osPrefix.toLowerCase().startsWith("win32-amd64")) { encode = "GBK"; } else if (osPrefix.toLowerCase().startsWith("linux-amd64")) { encode = "UTF-8"; } } /** * 初始化SDK库 */ public static boolean Init() { bInit = netsdk.CLIENT_Init(disConnectCB, null); if (!bInit) { System.out.println("Initialize SDK failed"); return false; } // 配置日志 RtscConfigDemo.enableLog(); // 设置断线重连回调接口, 此操作为可选操作,但建议用户进行设置 netsdk.CLIENT_SetAutoReconnect(haveReConnectCB, null); // 设置登录超时时间和尝试次数,可选 // 登录请求响应超时时间设置为3S int waitTime = 3000; // 登录时尝试建立链接 1 次 int tryTimes = 1; netsdk.CLIENT_SetConnectTime(waitTime, tryTimes); // 设置更多网络参数, NET_PARAM 的nWaittime , nConnectTryNum 成员与 CLIENT_SetConnectTime // 接口设置的登录设备超时时间和尝试次数意义相同,可选 NetSDKLib.NET_PARAM netParam = new NetSDKLib.NET_PARAM(); // 登录时尝试建立链接的超时时间 netParam.nConnectTime = 10000; // 设置子连接的超时时间 netParam.nGetConnInfoTime = 3000; netsdk.CLIENT_SetNetworkParam(netParam); return true; } /** * 打开 sdk log */ private static void enableLog() { NetSDKLib.LOG_SET_PRINT_INFO setLog = new NetSDKLib.LOG_SET_PRINT_INFO(); File path = new File("sdklog/"); if (!path.exists()) path.mkdir(); // 这里的log保存地址依据实际情况自己调整 String logPath = path.getAbsoluteFile().getParent() + "\\sdklog\\" + "sdklog" + AnalyseTaskUtils.getDate() + ".log"; setLog.nPrintStrategy = 0; setLog.bSetFilePath = 1; System.arraycopy(logPath.getBytes(), 0, setLog.szLogFilePath, 0, logPath.getBytes().length); System.out.println(logPath); setLog.bSetPrintStrategy = 1; bLogOpen = netsdk.CLIENT_LogOpen(setLog); if (!bLogOpen) System.err.println("Failed to open NetSDK log"); } /** * 高安全登录 */ public void loginWithHighLevel() { // 输入结构体参数 NetSDKLib.NET_IN_LOGIN_WITH_HIGHLEVEL_SECURITY pstlnParam = new NetSDKLib.NET_IN_LOGIN_WITH_HIGHLEVEL_SECURITY() { { szIP = m_strIpAddr.getBytes(); nPort = m_nPort; szUserName = m_strUser.getBytes(); szPassword = m_strPassword.getBytes(); } }; // 输出结构体参数 NetSDKLib.NET_OUT_LOGIN_WITH_HIGHLEVEL_SECURITY pstOutParam = new NetSDKLib.NET_OUT_LOGIN_WITH_HIGHLEVEL_SECURITY(); // 写入sdk m_hLoginHandle = netsdk.CLIENT_LoginWithHighLevelSecurity(pstlnParam, pstOutParam); if (m_hLoginHandle.longValue() == 0) { System.err.printf("Login Device[%s] Port[%d]Failed. %s\n", m_strIpAddr, m_nPort, netsdk.CLIENT_GetLastError()); } else { // deviceInfo = pstOutParam.stuDeviceInfo; // 获取设备信息 System.out.println("Login Success"); System.out.println("Device Address:" + m_strIpAddr); // System.out.println("设备包含:" + deviceInfo.byChanNum + "个通道"); } } /** * 退出 */ public void logOut() { if (m_hLoginHandle.longValue() != 0) { netsdk.CLIENT_Logout(m_hLoginHandle); System.out.println("LogOut Success"); } } /** * 清除 sdk环境 */ public static void cleanup() { if (bLogOpen) { netsdk.CLIENT_LogClose(); } if (bInit) { netsdk.CLIENT_Cleanup(); } } /** * 清理并退出 */ public static void cleanAndExit() { netsdk.CLIENT_Cleanup(); System.exit(0); } /** * 路口数据列表配置 */ public void operateSchCrossList() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_CROSSLIST_INFO info = new NET_CFG_RTSC_SCH_CROSSLIST_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_CROSSLIST; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1, pointer, info.size(), 5000, null); if (!ret1) { System.err.println("获取路口数据列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取获路口数据列表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("路口数据列表信息个数:" + info.nCrossListInfoNum); System.out.println("路口数据列表信息--------"); NET_CROSS_LIST_INFO[] stuCrossListInfo = info.stuCrossListInfo; for (int i = 0; i < info.nCrossListInfoNum; i++) { System.out.println("路口类型:" + stuCrossListInfo[i].nCrossType); System.out.println("路段数据列表个数:" + stuCrossListInfo[i].nRoadListInfoNum); } // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1, param, info.size(), 5000, new IntByReference(0), null); if (!ret2) { System.err.println("下发路口数据列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("下发路口数据列表配置成功!"); } } } /** * 道路表配置 */ public void operateSchChannels() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_CHANNELS_INFO info = new NET_CFG_RTSC_SCH_CHANNELS_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_CHANNELS; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1, pointer, info.size(), 3000, null); if (!ret1) { System.err.println("获取道路表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取道路表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("最大通道个数,只读:"+info.nMaxChannels); System.out.println("通道列表个数:"+info.nChannelsInfoNum); NET_CHANNELS_INFO[] stuChannelsInfo = info.stuChannelsInfo; for (int i = 0; i < info.nChannelsInfoNum; i++) { System.out.println("---第"+i+"个通道列表信息-----"); System.out.println("进口方向 :"+stuChannelsInfo[i].nRoadSectionDir); } // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发道路表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发道路表配置成功!"); } } } /** * 周期方案表配置 */ public void operateSchPlans() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_PLANS_INFO info = new NET_CFG_RTSC_SCH_PLANS_INFO(); info.write(); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_PLANS; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,info.getPointer() , info.size(), 3000, null); if (!ret1) { System.err.println("获取周期方案表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取周期方案表配置成功!"); info.read(); System.out.println("最大方案个数 只读:"+info.nMaxCyclePlans); System.out.println("周期方案列表个数:"+info.nCyclePalnNum); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发周期方案表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发周期方案表配置成功!"); } } } /** * 红绿灯调度计划列表配置 */ public void operateSchManage() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_MANAGE_INFO info = new NET_CFG_RTSC_SCH_MANAGE_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_MANAGE; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取红绿灯调度计划列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取红绿灯调度计划列表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("最大日方案数:"+info.nMaxDayPlans); System.out.println("最大时段数:"+info.nMaxDayActions); System.out.println("最大周计划数:"+info.nMaxWeekPlans); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发红绿灯调度计划列表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发红绿灯调度计划列表配置成功!"); } } } /** * 检测器列表配置 */ public void operateSchVehicleDetectorlist() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_VEHICLE_DETECTORLIST_INFO info = new NET_CFG_RTSC_SCH_VEHICLE_DETECTORLIST_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_VEHICLE_DETECTORLIST; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取检测器列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取检测器列表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("最大车辆检测器数:"+info.nMaxVehicleDetectors); System.out.println("检测器列表个数:"+info.nVehicleDetectorNum); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发检测器列表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发检测器列表配置成功!"); } } } /** * 行人检测器列表配置 */ public void operateSchPeddetectorlist() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_PEDDETECTOR_LIST_INFO info = new NET_CFG_RTSC_SCH_PEDDETECTOR_LIST_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_PEDDETECTOR_LIST; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取行人检测器列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取行人检测器列表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("最大行人检测器数:"+info.nMaxPedestrianDetectors); System.out.println("行人检测器列表个数:"+info.nPedDetectorNum);//获取行人检测器列表(stuPedDetectorInfo)实际的行人检测器列表个数, // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发行人检测器列表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发行人检测器列表配置成功!"); } } } /** * 行人优先智能化配置 */ public void operateSchPeddestrainPriority() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_PEDDESTRAIN_PRIORITY_INFO info = new NET_CFG_RTSC_SCH_PEDDESTRAIN_PRIORITY_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_PEDDESTRAIN_PRIORITY; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1, pointer, info.size(), 3000, null); if (!ret1) { System.err.println("获取行人优先智能化配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取行人优先智能化配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("行人优先智能化配置列表个数:" + info.nPedestrainPriorityNum); // 编辑配置并下发 info.nPedestrainPriorityNum = 1; // NET_PEDESTRAIN_PRIORITY_INFO[] stupedestrainPriorityInfo = (NET_PEDESTRAIN_PRIORITY_INFO[]) new NET_PEDESTRAIN_PRIORITY_INFO().toArray(20); NET_PEDESTRAIN_PRIORITY_INFO info1 = new NET_PEDESTRAIN_PRIORITY_INFO(); info1.nCycleNum = 1; info.stupedestrainPriorityInfo[0] = info1; Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1, param, info.size(), 5000, new IntByReference(0), null); if (!ret2) { System.err.println("下发行人优先智能化配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("下发行人优先智能化配置成功!"); } } } /** * 溢出控制列表配置 */ public void operateSchOverflowControl() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_OVERFLOW_CONTROL_INFO info = new NET_CFG_RTSC_SCH_OVERFLOW_CONTROL_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_OVERFLOW_CONTROL; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取溢出控制列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取溢出控制列表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("溢出控制智能化配置列表个数:"+info.nOverflowControlNum); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发溢出控制列表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发溢出控制列表配置成功!"); } } } /** * 夜间请求配置 */ public void operateSchNightask() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_NIGHTASK_INFO info = new NET_CFG_RTSC_SCH_NIGHTASK_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_NIGHTASK; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取夜间请求配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取夜间请求配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("夜间请求智能化配置列表个数:"+info.nNightAskNum); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发夜间请求配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发夜间请求配置成功!"); } } } /** * 饱和度与单点自适应智能化配置 */ public void operateSchOptimizes() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_OPTIMIZES_INFO info = new NET_CFG_RTSC_SCH_OPTIMIZES_INFO(); info.write(); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_OPTIMIZES; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,info.getPointer() , info.size(), 3000, null); if (!ret1) { System.err.println("获取饱和度与单点自适应智能化配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取饱和度与单点自适应智能化配置成功!"); info.read(); System.out.println("能度与单点完成配置表个数:"+info.nOptimizeInfoNum); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发饱和度与单点自适应智能化配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发饱和度与单点自适应智能化配置成功!"); } } } /** * 可变车道列表配置 */ public void operateSchVarlanelist() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_VARLANELIST_INFO info = new NET_CFG_RTSC_SCH_VARLANELIST_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_VARLANELIST; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取可变车道列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取可变车道列表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("可变车道列表个数:"+info.nVarlaneListNum); System.out.println("可变车道计划表个数:"+info.nVarlanePlanListNum); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发可变车道列表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发可变车道列表配置成功!"); } } } /** * 可变车道调度计划列表配置 */ public void operateSchVarlaneMangaement() { // 先获取原先的默认配置 NET_CFG_RTSC_SCH_VARLANE_MANAGEMENT_INFO info = new NET_CFG_RTSC_SCH_VARLANE_MANAGEMENT_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_SCH_VARLANE_MANAGEMENT; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取可变车道列表配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取可变车道列表配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("可变车道日方案列表个数:"+info.nDayPlansNum); NET_DAY_PLANS_INFO[] stuDayPlansInfo = info.stuDayPlansInfo; for (int i = 0; i < info.nDayPlansNum; i++) { int nDayActionNum = stuDayPlansInfo[i].nDayActionNum; NET_DAY_ACTIONS_INFO[] stuDayActionInfo = stuDayPlansInfo[i].stuDayActionInfo; System.out.println("可变车道日方案列表-----------"+i+"----------"); for (int j = 0; j < nDayActionNum; j++) { System.out.println("周期方案编号["+j+"]: "+stuDayActionInfo[j].nCyclePlanNum); } } // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发可变车道调度计划列表配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发可变车道调度计划列表配置成功!"); } } } /** * 临时方案配置 */ public void operateSchTempSch() { // 先获取原先的默认配置 NET_CFG_RTSC_TEMP_SCH_INFO info = new NET_CFG_RTSC_TEMP_SCH_INFO(); Pointer pointer = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, pointer, 0); int emCfgOpType = NET_EM_CFG_OPERATE_TYPE.NET_EM_CFG_RTSC_TEMP_SCH; // 配置类型的枚举 boolean ret1 = netsdk.CLIENT_GetConfig(m_hLoginHandle, emCfgOpType, -1,pointer , info.size(), 3000, null); if (!ret1) { System.err.println("获取临时方案配置失败:" + ToolKits.getErrorCode()); return; } else { System.out.println("获取临时方案配置成功!"); ToolKits.GetPointerData(pointer, info); System.out.println("临时方案开始时间个数:"+info.nStartTimeNum); System.out.println("临时方案结束时间个数:"+info.nEndTimeNum); System.out.println("环信息个数:"+info.nRingsNum ); System.out.println("跟随相位列表个数:"+info.nOverLapsNum ); // 编辑配置并下发 Pointer param = new Memory(info.size()); ToolKits.SetStructDataToPointer(info, param, 0); boolean ret2 = netsdk.CLIENT_SetConfig(m_hLoginHandle, emCfgOpType, -1,param, info.size(), 5000, new IntByReference(0), null); if(!ret2) { System.err.println("下发临时方案配置失败:" + ToolKits.getErrorCode()); return; }else { System.out.println("下发临时方案配置成功!"); } } } /** * 设置信号机备份模式 */ public void setRtscBackupMode() { // 入参 NET_IN_SET_BACKUP_MODE inparam=new NET_IN_SET_BACKUP_MODE(); int pInParamSize=inparam.size(); // 红绿灯/可变车道方案 inparam.emCtrlScheme = EM_CTRL_SCHEME.EM_CTRL_SCHEME_REDYELLOW_BACKUP.getValue(); Pointer pInParam =new Memory(pInParamSize); ToolKits.SetStructDataToPointer(inparam, pInParam, 0); // 出参 NET_OUT_SET_BACKUP_MODE outParam=new NET_OUT_SET_BACKUP_MODE(); int poutParamSize=outParam.size(); Pointer pOutParam =new Memory(poutParamSize); ToolKits.SetStructDataToPointer(outParam, pOutParam, 0); boolean flg = netsdk.CLIENT_SetRtscBackupMode(m_hLoginHandle, pInParam, pOutParam, 3000); if(flg){ ToolKits.GetPointerDataToStruct(pOutParam,0,outParam); System.out.println("备份模式设置错误码:"+ EM_BACKUP_ERROR_CODE.getNoteByValue(outParam.emBackUpErrCode)); }else { System.err.println("setRtscBackupMode fail :"+ToolKits.getErrorCode()); } } /** * 测试结构体大小 */ public void test() { long startTime = System.currentTimeMillis(); // 获取开始时间 // 测试的代码段 NET_CFG_RTSC_TEMP_SCH_INFO test = new NET_CFG_RTSC_TEMP_SCH_INFO(); System.out.println("结构体大小:" + test.dwSize); long endTime = System.currentTimeMillis(); // 获取结束时间 System.out.println("程序运行时间:" + (endTime - startTime) + "ms"); // 输出程序运行时间 } /******************************** 测试控制台 ***************************************/ // 配置登陆地址,端口,用户名,密码 private String m_strIpAddr = "172.9.101.75"; private int m_nPort = 37777; private String m_strUser = "admin"; private String m_strPassword = "admin123"; public static void main(String[] args) { RtscConfigDemo demo = new RtscConfigDemo(); demo.InitTest(); demo.RunTest(); demo.EndTest(); } /** * 初始化测试 */ public void InitTest() { RtscConfigDemo.Init(); this.loginWithHighLevel(); } /** * 加载测试内容 */ public void RunTest() { CaseMenu menu = new CaseMenu(); menu.addItem(new CaseMenu.Item(this, "路口数据列表配置", "operateSchCrossList")); menu.addItem(new CaseMenu.Item(this, "道路表配置", "operateSchChannels")); menu.addItem(new CaseMenu.Item(this, "周期方案表配置", "operateSchPlans")); menu.addItem(new CaseMenu.Item(this, "红绿灯调度计划列表配置", "operateSchManage")); menu.addItem(new CaseMenu.Item(this, "检测器列表配置", "operateSchVehicleDetectorlist")); menu.addItem(new CaseMenu.Item(this, "行人检测器列表配置", "operateSchPeddetectorlist")); menu.addItem(new CaseMenu.Item(this, "行人优先智能化配置", "operateSchPeddestrainPriority")); menu.addItem(new CaseMenu.Item(this, "溢出控制列表配置", "operateSchOverflowControl")); menu.addItem(new CaseMenu.Item(this, "夜间请求配置", "operateSchNightask")); menu.addItem(new CaseMenu.Item(this, "饱和度与单点自适应智能化配置", "operateSchOptimizes")); menu.addItem(new CaseMenu.Item(this, "可变车道列表配置", "operateSchVarlanelist")); menu.addItem(new CaseMenu.Item(this, "可变车道调度计划列表配置", "operateSchVarlaneMangaement")); menu.addItem(new CaseMenu.Item(this, "临时方案配置", "operateSchTempSch")); menu.addItem(new CaseMenu.Item(this, "设置信号机备份模式", "setRtscBackupMode")); // 用于在配置相关数据时,进行备份数据生效操作 //menu.addItem(new CaseMenu.Item(this, "测试", "test")); menu.run(); } /** * 结束测试 */ public void EndTest() { System.out.println("End Test"); this.logOut(); // 退出 System.out.println("See You..."); RtscApiDemo.cleanAndExit(); // 清理资源并退出 } /******************************** 结束 ***************************************/ }