~chenluhua/Bond2.git

			@@ -94,6 +94,7 @@
			, m_nTrayIconID(0)
			, m_bTrayIconCreated(FALSE)
			, m_bExitingFromTray(FALSE)
			, m_nAutoStart(TRUE)
			{
			m_hIcon = AfxGetApp()->LoadIcon(IDR_MAINFRAME);
			}
			@@ -131,6 +132,9 @@
			}

			m_plcListener.Stop();

			// 保存配置文件
			SaveConfig(GetConfigPath());

			DestroyWindow();
			CDialogEx::OnClose();
			@@ -301,6 +305,134 @@
			strLine.Empty();
			}
			}
			}

			CString CSGMeasurementDlg::GetAppDirectory()
			{
			TCHAR szPath[MAX_PATH] = { 0 };
			GetModuleFileName(NULL, szPath, MAX_PATH);

			CString strPath = szPath;
			int pos = strPath.ReverseFind('\\');
			if (pos != -1) {
			strPath = strPath.Left(pos + 1);
			}

			return strPath;
			}

			CString CSGMeasurementDlg::GetConfigPath()
			{
			return GetAppDirectory() + _T("SGConfig.ini");
			}

			bool CSGMeasurementDlg::LoadConfig(const CString& strFile)
			{
			CString strSection = _T("StorageConfig");
			TCHAR buf[256];

			GetPrivateProfileString(strSection, _T("UseTrigger"), _T("0"), buf, 256, strFile);
			m_nUseTrigger = _ttoi(buf);

			GetPrivateProfileString(strSection, _T("SavePointCount"), _T("100000"), buf, 256, strFile);
			m_nSavePointCount = _ttoi(buf);

			// 输出端口
			GetPrivateProfileString(strSection, _T("OutputPort"), _T("OUT1"), buf, 256, strFile);
			{
			int idx = m_comboOutputPort.FindStringExact(-1, buf);
			if (idx != CB_ERR) {
			m_comboOutputPort.SetCurSel(idx);
			}
			else {
			m_comboOutputPort.SetCurSel(0);
			}
			}

			// 跳变检测参数
			GetPrivateProfileString(strSection, _T("JumpThreshold"), _T("0.2"), buf, 256, strFile);
			m_fJumpThreshold = static_cast<float>(_tstof(buf));

			GetPrivateProfileString(strSection, _T("JumpWindow"), _T("3"), buf, 256, strFile);
			m_nJumpWindow = _ttoi(buf);

			GetPrivateProfileString(strSection, _T("ValleyMargin"), _T("0"), buf, 256, strFile);
			m_nValleyMargin = _ttoi(buf);

			GetPrivateProfileString(strSection, _T("MinGlass1Count"), _T("10"), buf, 256, strFile);
			m_nMinGlass1Count = _ttoi(buf);

			// 稳定区域参数
			GetPrivateProfileString(strSection, _T("FixedCount"), _T("5"), buf, 256, strFile);
			m_nFixedCount = _ttoi(buf);

			GetPrivateProfileString(strSection, _T("MaxDelta"), _T("0.05"), buf, 256, strFile);
			m_fMaxDelta = static_cast<float>(_tstof(buf));

			// 自启动
			GetPrivateProfileString(strSection, _T("AutoStart"), _T("1"), buf, 256, strFile);
			m_nAutoStart = _ttoi(buf);

			return true;
			}

			bool CSGMeasurementDlg::SaveConfig(const CString& strFile)
			{
			CString strSection = _T("StorageConfig");

			WritePrivateProfileString(strSection, _T("UseTrigger"), std::to_wstring(m_nUseTrigger).c_str(), strFile);
			WritePrivateProfileString(strSection, _T("SavePointCount"), std::to_wstring(m_nSavePointCount).c_str(), strFile);

			// 输出端口下拉框
			CString strPort;
			m_comboOutputPort.GetWindowText(strPort);
			WritePrivateProfileString(strSection, _T("OutputPort"), strPort, strFile);

			// 跳变检测
			WritePrivateProfileString(strSection, _T("JumpThreshold"), std::to_wstring(m_fJumpThreshold).c_str(), strFile);
			WritePrivateProfileString(strSection, _T("JumpWindow"), std::to_wstring(m_nJumpWindow).c_str(), strFile);
			WritePrivateProfileString(strSection, _T("ValleyMargin"), std::to_wstring(m_nValleyMargin).c_str(), strFile);
			WritePrivateProfileString(strSection, _T("MinGlass1Count"), std::to_wstring(m_nMinGlass1Count).c_str(), strFile);

			// 稳定区
			WritePrivateProfileString(strSection, _T("FixedCount"), std::to_wstring(m_nFixedCount).c_str(), strFile);
			WritePrivateProfileString(strSection, _T("MaxDelta"), std::to_wstring(m_fMaxDelta).c_str(), strFile);

			// 自启动
			WritePrivateProfileString(strSection, _T("AutoStart"), std::to_wstring(m_nAutoStart).c_str(), strFile);

			return true;
			}

			bool CSGMeasurementDlg::SetAutoStart(bool bEnable)
			{
			// 获取当前程序路径
			TCHAR szPath[MAX_PATH] = { 0 };
			GetModuleFileName(NULL, szPath, MAX_PATH);
			CString strAppPath = szPath;

			// 获取应用程序名称
			CString strAppName = ::PathFindFileName(strAppPath);
			strAppName = strAppName.Left(strAppName.ReverseFind('.'));

			HKEY hKey;
			LONG lRet = RegOpenKeyEx(HKEY_CURRENT_USER, _T("Software\\Microsoft\\Windows\\CurrentVersion\\Run"), 0, KEY_WRITE, &hKey);

			if (lRet != ERROR_SUCCESS) {
			return false;
			}

			if (bEnable) {
			// 设置自启
			lRet = RegSetValueEx(hKey, strAppName, 0, REG_SZ, (BYTE)(LPCTSTR)strAppPath, (strAppPath.GetLength() + 1) sizeof(TCHAR));
			}
			else {
			// 取消自启
			lRet = RegDeleteValue(hKey, strAppName);
			}

			RegCloseKey(hKey);
			return (lRet == ERROR_SUCCESS);
			}

			bool CSGMeasurementDlg::ConnectToDevice()
			@@ -715,7 +847,7 @@
			return false;
			}

			float CSGMeasurementDlg::AnalyzeStoredData(int nOutNo)
			double CSGMeasurementDlg::AnalyzeStoredData(int nOutNo)
			{
			MEASURE_FUNC_START();

			@@ -724,27 +856,27 @@
			if (m_nUseTrigger) {
			UpdateControlStatus(m_bConnected, m_bSaving);
			AfxMessageBox(_T("当前是硬触发模式，请检查触发器状态。"), MB_ICONINFORMATION);
			return 0xFF;
			return DBL_MAX;
			}

			if (!m_bConnected) {
			AppendLogLineRichStyled(_T("设备未连接，请先连接设备。"), LOG_COLOR_WARNING);
			return 0xFF;
			return DBL_MAX;
			}

			if (m_bSaving) {
			AppendLogLineRichStyled(_T("数据存储正在进行中，请先停止存储。"), LOG_COLOR_WARNING);
			return 0xFF;
			return DBL_MAX;
			}

			if (nOutNo < 1 \|\| nOutNo > 4) {
			AppendLogLineRichStyled(_T("输出端口编号无效，必须在 1 到 4 之间。"), LOG_COLOR_ERROR);
			return 0xFF;
			return DBL_MAX;
			}

			if (m_nSavePointCount < 0) {
			AppendLogLineRichStyled(_T("数据点数必须大于 0。"), LOG_COLOR_ERROR);
			return 0xFF;
			return DBL_MAX;
			}

			std::vector<float> vecBuffer(m_nSavePointCount, 0.0f);
			@@ -755,16 +887,16 @@
			CString strError;
			strError.Format(_T("读取 OUT%d 数据失败，错误码：%#X"), nOutNo, nRet);
			AppendLogLineRichStyled(strError, LOG_COLOR_ERROR);
			return 0xFF;
			return DBL_MAX;
			}

			vecBuffer.resize(nReceived);
			CleanInvalidValuesInPlace(nOutNo, vecBuffer);

			std::vector<float> vecGlass1, vecGlass2;
			std::vector<float> vecGlass1, vecGlass2;
			if (!SplitGlassSegments(nOutNo, vecBuffer, vecGlass1, vecGlass2, m_fJumpThreshold, m_nJumpWindow, m_nValleyMargin, m_nMinGlass1Count)) {
			AppendLogLineRichStyled(_T("未能识别出两片玻璃的数据。"), LOG_COLOR_WARNING);
			return 0xFF;
			return DBL_MAX;
			}

			std::vector<float> vecGlass1Filtered, vecGlass2Filtered;
			@@ -924,7 +1056,7 @@
			m_plcListener.SetAnalyzeCallback([this]() {
			if (!m_bConnected) {
			AppendLogLineRichStyled(_T("设备未连接，请先连接设备。"), LOG_COLOR_WARNING);
			return std::array<double, 4>{ 0xFF, 0xFF, 0xFF, 0xFF };
			return std::array<double, 4>{ DBL_MAX, DBL_MAX, DBL_MAX, DBL_MAX };
			}

			std::array<double, 4> result;
			@@ -932,12 +1064,37 @@
			result[i] = AnalyzeStoredData(i + 1); // OUT1 ~ OUT4
			}

			std::string strProductID;
			m_plcListener.ReadProductID(strProductID);
			m_resultStorage.SaveAnalyzeResult(CString(strProductID.c_str()), result);

			CString strLog;
			strLog.Format(_T("分析结果：OUT1: %.3f, OUT2: %.3f, OUT3: %.3f, OUT4: %.3f"), result[0], result[1], result[2], result[3]);
			return result;
			});
			m_plcListener.Start();

			// 加载配置文件
			if (LoadConfig(GetConfigPath())) {
			AppendLogLineRichStyled(_T("配置已从 SGConfig.ini 加载成功"), LOG_COLOR_SUCCESS);
			}
			else {
			AppendLogLineRichStyled(_T("配置加载失败，使用默认参数"), LOG_COLOR_WARNING);
			}

			// 设置自动启动
			if (SetAutoStart(m_nAutoStart)) {
			if (m_nAutoStart) {
			AppendLogLineRichStyled(_T("已启用开机自启动"), LOG_COLOR_SUCCESS);
			}
			else {
			AppendLogLineRichStyled(_T("已取消开机自启动"), LOG_COLOR_WARNING);
			}
			}
			else {
			AppendLogLineRichStyled(_T("设置开机自启动失败，请检查权限"), LOG_COLOR_ERROR);
			}

			// 初始化日志框
			AppendLogLineRichStyled(_T("准备就绪..."), LOG_COLOR_SUCCESS);