java读取方法参数名称,read the names of the parameters of a method

最新推荐文章于 2025-08-15 22:56:20 发布
最新推荐文章于 2025-08-15 22:56:20 发布
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分类专栏: java 文章标签: java method parameter name spring
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本文链接:https://blog.youkuaiyun.com/RayburnBao/article/details/84709086

 

       java编程好多时候希望能够得到方法参数名称,这样可以避免通过类型判断,因为类型很容易重复,同时也省写注解,保持代码简洁。

       java1.8新增了java.lang.reflect.Parameter类,可以通过parameter.getName()得到参数名

 

        Method method = org.springframework.validation.DataBinder.class.getDeclaredMethod("bind", new Class[]{PropertyValues.class});
        Parameter[] parameters = method.getParameters();
        for (Parameter parameter : parameters) {
            System.out.println(parameter.getName());
        }

       但是编译时需要指定参数javac -parameters,不然得到的名称仍然是arg0,arg1...

 

       早期的java版本不能从官方的反射api中读到名称,只能通过读编译后的class文件得到该方法内变量名,这里得到的变量名包含了参数名与方法体内声明的变量名,参数名会出现在该变量集的开头部分。如果是非静态方法,第一个为this。通过第三方类库如ASM、BCEL等。

        Method method = org.springframework.validation.DataBinder.class.getDeclaredMethod("bind", new Class[]{PropertyValues.class});
        com.sun.org.apache.bcel.internal.classfile.Method bcelMethod =
                Repository.lookupClass(method.getDeclaringClass()).getMethod(method);
        LocalVariableTable localVariableTable = bcelMethod.getLocalVariableTable();
        String[] parameterNames = new String[method.getParameterTypes().length];
        int offset = Modifier.isStatic(method.getModifiers()) ? 0 : 1;
        for (int i = 0; i < parameterNames.length; i++) {
            parameterNames[i] = localVariableTable.getLocalVariable(i + offset).getName();
        }

 

     如果你的工程依赖了spring,那就比较幸运,可以直接使用spring封装好的类,配置:

<bean class="org.springframework.core.DefaultParameterNameDiscoverer"/>

     或

<bean class="org.springframework.core.LocalVariableTableParameterNameDiscoverer"/>

     DefaultParameterNameDiscoverer增加了对jdk1.8与以下版本的分别处理,spring4新增;

     LocalVariableTableParameterNameDiscoverer为spring4以下使用,统一使用第三方类库读class文件的方式

@Autowired
private ParameterNameDiscoverer parameterNameDiscoverer;
 
Method m = ...
String[] names = parameterNameDiscoverer.getParameterNames(m);

 

     参考文章:http://www.beyondjava.net/blog/reading-java-8-method-parameter-named-reflection/

 

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void ReadEx(_Out_writes_bytes_opt_(dwNumberOfBytesToRead) __out_data_source(FILE) LPVOID lpBuffer, _In_ DWORD dwNumberOfBytesToRead, _Inout_ LPOVERLAPPED lpOverlapped, _In_ LPOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine); DWORD Write(_In_reads_bytes_opt_(dwNumberOfBytesToWrite) const void* lpBuffer, _In_ DWORD dwNumberOfBytesToWrite); void Write(_In_reads_bytes_opt_(dwNumberOfBytesToWrite) const void* lpBuffer, _In_ DWORD dwNumberOfBytesToWrite, _In_ OVERLAPPED& overlapped, _Out_opt_ DWORD* lpNumberOfBytesWritten = NULL); void WriteEx(_In_reads_bytes_opt_(dwNumberOfBytesToWrite) LPCVOID lpBuffer, _In_ DWORD dwNumberOfBytesToWrite, _Inout_ LPOVERLAPPED lpOverlapped, _In_ LPOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine); void TransmitChar(_In_ char cChar); DWORD GetOverlappedResult(_In_ OVERLAPPED& overlapped, _Out_ DWORD& dwBytesTransferred, _In_ BOOL bWait); void CancelIo(); DWORD BytesWaiting(); DWORD BytesPending(); //Configuration Methods void GetConfig(_In_ COMMCONFIG& config); static void GetDefaultConfig(_In_ int nPort, _Out_ COMMCONFIG& config); static void GetDefaultConfig(_In_z_ LPCTSTR pszPort, _Out_ COMMCONFIG& config); void SetConfig(_In_ COMMCONFIG& Config); static void SetDefaultConfig(_In_ int nPort, _In_ COMMCONFIG& config); static void SetDefaultConfig(_In_z_ LPCTSTR pszPort, _In_ COMMCONFIG& config); //Misc RS232 Methods void ClearBreak(); void SetBreak(); void ClearError(_Out_ DWORD& dwErrors); void GetStatus(_Out_ COMSTAT& stat); void GetState(_Out_ DCB& dcb); void SetState(_In_ DCB& dcb); void Escape(_In_ DWORD dwFunc); void ClearDTR(); void ClearRTS(); void SetDTR(); void SetRTS(); void SetXOFF(); void SetXON(); void GetProperties(_Inout_ COMMPROP& properties); void GetModemStatus(_Out_ DWORD& dwModemStatus); //Timeouts void SetTimeouts(_In_ COMMTIMEOUTS& timeouts); void GetTimeouts(_Out_ COMMTIMEOUTS& timeouts); void Set0Timeout(); void Set0WriteTimeout(); void Set0ReadTimeout(); //Event Methods void SetMask(_In_ DWORD dwMask); void GetMask(_Out_ DWORD& dwMask); void WaitEvent(_Inout_ DWORD& dwMask); BOOL WaitEvent(_Inout_ DWORD& dwMask, _Inout_ OVERLAPPED& overlapped); //Queue Methods void Flush(); void Purge(_In_ DWORD dwFlags); void TerminateOutstandingWrites(); void TerminateOutstandingReads(); void ClearWriteBuffer(); void ClearReadBuffer(); void Setup(_In_ DWORD dwInQueue, _In_ DWORD dwOutQueue); //Static methods static void ThrowSerialException(_In_ DWORD dwError = 0); protected: //Member variables HANDLE m_hComm; //Handle to the comms port }; #endif //#ifndef __SERIALPORT_H__ /* Module : SerialPort.cpp Purpose: Implementation for an C++ wrapper class for serial ports Created: PJN / 31-05-1999 History: PJN / 03-06-1999 1. Fixed problem with code using CancelIo which does not exist on 95. 2. Fixed leaks which can occur in sample app when an exception is thrown PJN / 16-06-1999 1. Fixed a bug whereby CString::ReleaseBuffer was not being called in CSerialException::GetErrorMessage PJN / 29-09-1999 1. Fixed a simple copy and paste bug in CSerialPort::SetDTR PJN / 08-05-2000 1. Fixed an unreferrenced variable in CSerialPort::GetOverlappedResult in VC 6 PJN / 10-12-2000 1. Made class destructor virtual PJN / 15-01-2001 1. Attach method now also allows you to specify whether the serial port is being attached to in overlapped mode 2. Removed some ASSERTs which were unnecessary in some of the functions 3. Updated the Read method which uses OVERLAPPED IO to also return the bytes read. This allows calls to WriteFile with a zeroed overlapped structure (This is required when dealing with TAPI and serial communications) 4. Now includes copyright message in the source code and documentation. PJN / 24-03-2001 1. Added a BytesWaiting method PJN / 04-04-2001 1. Provided an overriden version of BytesWaiting which specifies a timeout PJN / 23-04-2001 1. Fixed a memory leak in DataWaiting method PJN / 01-05-2002 1. Fixed a problem in Open method which was failing to initialize the DCB structure incorrectly, when calling GetState. Thanks to Ben Newson for this fix. PJN / 29-05-2002 1. Fixed an problem where the GetProcAddress for CancelIO was using the wrong calling convention PJN / 07-08-2002 1. Changed the declaration of CSerialPort::WaitEvent to be consistent with the rest of the methods in CSerialPort which can operate in "OVERLAPPED" mode. A note about the usage of this: If the method succeeds then the overlapped operation has completed synchronously and there is no need to do a WaitForSingle/MultipleObjects. If any other unexpected error occurs then a CSerialException will be thrown. See the implementation of the CSerialPort::DataWaiting which has been rewritten to use this new design pattern. Thanks to Serhiy Pavlov for spotting this inconsistency. PJN / 20-09-2002 1. Addition of an additional ASSERT in the internal _OnCompletion function. 2. Addition of an optional out parameter to the Write method which operates in overlapped mode. Thanks to Kevin Pinkerton for this addition. PJN / 10-04-2006 1. Updated copyright details. 2. Addition of a CSERIALPORT_EXT_CLASS and CSERIALPORT_EXT_API macros which makes the class easier to use in an extension dll. 3. Removed derivation of CSerialPort from CObject as it was not really needed. 4. Fixed a number of level 4 warnings in the sample app. 5. Reworked the overlapped IO methods to expose the LPOVERLAPPED structure to client code. 6. Updated the documentation to use the same style as the web site. 7. Did a spell check of the HTML documentation. 8. Updated the documentation on possible blocking in Read/Ex function. Thanks to D Kerrison for reporting this issue. 9. Fixed a minor issue in the sample app when the code is compiled using /Wp64 PJN / 02-06-2006 1. Removed the bOverlapped as a member variable from the class. There was no real need for this setting, since the SDK functions will perform their own checking of how overlapped operations should 2. Fixed a bug in GetOverlappedResult where the code incorrectly checking against the error ERROR_IO_PENDING instead of ERROR_IO_INCOMPLETE. Thanks to Sasho Darmonski for reporting this bug. 3. Reviewed all TRACE statements for correctness. PJN / 05-06-2006 1. Fixed an issue with the creation of the internal event object. It was incorrectly being created as an auto-reset event object instead of a manual reset event object. Thanks to Sasho Darmonski for reporting this issue. PJN / 24-06-2006 1. Fixed some typos in the history list. Thanks to Simon Wong for reporting this. 2. Made the class which handles the construction of function pointers at runtime a member variable of CSerialPort 3. Made AfxThrowSerialPortException part of the CSerialPort class. Thanks to Simon Wong for reporting this. 4. Removed the unnecessary CSerialException destructor. Thanks to Simon Wong for reporting this. 5. Fixed a minor error in the TRACE text in CSerialPort::SetDefaultConfig. Again thanks to Simon Wong for reporting this. 6. Code now uses new C++ style casts rather than old style C casts where necessary. Again thanks to Simon Wong for reporting this. 7. CSerialException::GetErrorMessage now uses the strsafe functions. This does mean that the code now requires the Platform SDK if compiled using VC 6. PJN / 25-06-2006 1. Combined the functionality of the CSerialPortData class into the main CSerialPort class. 2. Renamed AfxThrowSerialPortException to ThrowSerialPortException and made the method public. PJN / 05-11-2006 1. Minor update to stdafx.h of sample app to avoid compiler warnings in VC 2005. 2. Reverted the use of the strsafe.h header file. Instead now the code uses the VC 2005 Safe CRT and if this is not available, then we fail back to the standard CRT. PJN / 25-01-2007 1. Minor update to remove strsafe.h from stdafx.h of the sample app. 2. Updated copyright details. PJN / 24-12-2007 1. CSerialException::GetErrorMessage now uses the FORMAT_MESSAGE_IGNORE_INSERTS flag. For more information please see Raymond Chen's blog at http://blogs.msdn.com/oldnewthing/archive/2007/11/28/6564257.aspx. Thanks to Alexey Kuznetsov for reporting this issue. 2. Simplified the code in CSerialException::GetErrorMessage somewhat. 3. Optimized the CSerialException constructor code. 4. Code now uses newer C++ style casts instead of C style casts. 5. Reviewed and updated all the TRACE logging in the module 6. Replaced all calls to ZeroMemory with memset PJN / 30-12-2007 1. Updated the sample app to clean compile on VC 2008 2. CSerialException::GetErrorMessage now uses Checked::tcsncpy_s if compiled using VC 2005 or later. PJN / 18-05-2008 1. Updated copyright details. 2. Changed the actual values for Parity enum so that they are consistent with the Parity define values in the Windows SDK header file WinBase.h. This avoids the potential issue where you use the CSerialPort enum parity values in a call to the raw Win32 API calls. Thanks to Robert Krueger for reporting this issue. PJN / 21-06-2008 1. Code now compiles cleanly using Code Analysis (/analyze) 2. Updated code to compile correctly using _ATL_CSTRING_EXPLICIT_CONSTRUCTORS define 3. The code now only supports VC 2005 or later. 4. CSerialPort::Read, Write, GetOverlappedResult & WaitEvent now throw an exception irrespective of whether the last error is ERROR_IO_PENDING or not 5. Replaced all calls to ZeroMemory with memset PJN / 04-07-2008 1. Provided a version of the Open method which takes a string instead of a numeric port number value. This allows the code to support some virtual serial port packages which do not use device names of the form "COM%d". Thanks to David Balazic for suggesting this addition. PJN / 25-01-2012 1. Updated copyright details. 2. Updated sample app and class to compile cleanly on VC 2010 and later. PJN / 28-02-2015 1. Updated sample project settings to more modern default values. 2. Updated copyright details. 3. Reworked the CSerialPort and CSerialPortException classes to optionally compile without MFC. By default the classes now use STL classes and idioms but if you define CSERIALPORT_MFC_EXTENSTIONS the classes will revert back to the MFC behaviour. 4. Remove logic to use GetProcAddress to access CancelIO functionality. 5. Updated the code to clean compile on VC 2013 6. Added SAL annotations to all the code 7. Addition of a GetDefaultConfig method which takes a string 8. Addition of a SetDefaultConfig method which takes a string PJN / 26-04-2015 1. Removed unnecessary inclusion of WinError.h 2. Removed the CSerialPort::DataWaiting method as it depends on the port being open in overlapped mode. Instead client code can simply call CSerialPort::WaitEvent directly themselves. Removing this method also means that the CSerialPort::m_hEvent handle has not also been removed. 3. The CSerialPort::WriteEx method has been reworked to expose all the parameters of the underlying WriteFileEx API. This rework also fixes a memory leak in WriteEx which can sometimes occur. This reworks also means that the CSerialPort::_OnCompletion and CSerialPort::_OnCompletion methods have been removed. Thanks to Yufeng Huang for reporting this issue. 4. The CSerialPort::ReadEx method has been reworked to expose all the parameters of the underlying ReadFileEx API. This rework also fixes a memory leak in ReadEx which can sometimes occur. This reworks also means that the CSerialPort::_OnCompletion and CSerialPort::_OnCompletion methods have been removed. Thanks to Yufeng Huang for reporting this issue. Copyright (c) 1996 - 2015 by PJ Naughter (Web: www.naughter.com, Email: pjna@naughter.com) All rights reserved. Copyright / Usage Details: You are allowed to include the source code in any product (commercial, shareware, freeware or otherwise) when your product is released in binary form. You are allowed to modify the source code in any way you want except you cannot modify the copyright details at the top of each module. If you want to distribute source code with your application, then you are only allowed to distribute versions released by the author. This is to maintain a single distribution point for the source code. */ // Includes #include "pch.h" #include "SerialPort.h" #ifndef __ATLBASE_H__ #pragma message("To avoid this message, please put atlbase.h in your pre compiled header (normally stdafx.h)") #include <atlbase.h> #endif //#ifndef __ATLBASE_H__ // Defines / #ifdef CSERIALPORT_MFC_EXTENSIONS #ifdef _DEBUG #define new DEBUG_NEW #endif //#ifdef _DEBUG #endif //#ifdef CSERIALPORT_MFC_EXTENSIONS //Implementation /// #if _MSC_VER >= 1700 BOOL CSerialException::GetErrorMessage(_Out_z_cap_(nMaxError) LPTSTR lpszError, _In_ UINT nMaxError, _Out_opt_ PUINT pnHelpContext) #else BOOL CSerialException::GetErrorMessage(__out_ecount_z(nMaxError) LPTSTR lpszError, __in UINT nMaxError, __out_opt PUINT pnHelpContext) #endif { //Validate our parameters ATLASSERT(lpszError != NULL); if (pnHelpContext != NULL) *pnHelpContext = 0; //What will be the return value from this function (assume the worst) BOOL bSuccess = FALSE; LPTSTR lpBuffer; DWORD dwReturn = FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, m_dwError, MAKELANGID(LANG_NEUTRAL, SUBLANG_SYS_DEFAULT), reinterpret_cast<LPTSTR>(&lpBuffer), 0, NULL); if (dwReturn == 0) *lpszError = _T('\0'); else { bSuccess = TRUE; Checked::tcsncpy_s(lpszError, nMaxError, lpBuffer, _TRUNCATE); LocalFree(lpBuffer); } return bSuccess; } #ifdef CSERIALPORT_MFC_EXTENSIONS CString CSerialException::GetErrorMessage() { CString rVal; LPTSTR pstrError = rVal.GetBuffer(4096); GetErrorMessage(pstrError, 4096, NULL); rVal.ReleaseBuffer(); return rVal; } #endif //#ifdef CSERIALPORT_MFC_EXTENSIONS CSerialException::CSerialException(DWORD dwError) : m_dwError(dwError) { } #ifdef CSERIALPORT_MFC_EXTENSIONS #ifdef _DEBUG void CSerialException::Dump(_In_ CDumpContext& dc) const { CObject::Dump(dc); dc << _T("m_dwError = ") << m_dwError << _T("\n"); } #endif //#ifdef _DEBUG #endif //#ifdef CSERIALPORT_MFC_EXTENSIONS CSerialPort::CSerialPort() : m_hComm(INVALID_HANDLE_VALUE) { } CSerialPort::~CSerialPort() { Close(); } void CSerialPort::ThrowSerialException(_In_ DWORD dwError) { if (dwError == 0) dwError = ::GetLastError(); ATLTRACE(_T("Warning: throwing CSerialException for error %d\n"), dwError); #ifdef CSERIALPORT_MFC_EXTENSIONS CSerialException* pException = new CSerialException(dwError); THROW(pException); #else CSerialException e(dwError); throw e; #endif //#ifdef CSERIALPORT_MFC_EXTENSIONS } #ifdef CSERIALPORT_MFC_EXTENSIONS #ifdef _DEBUG void CSerialPort::Dump(CDumpContext& dc) const { dc << _T("m_hComm = ") << m_hComm << _T("\n"); } #endif //#ifdef _DEBUG #endif //#ifdef CSERIALPORT_MFC_EXTENSIONS void CSerialPort::Open(_In_z_ LPCTSTR pszPort, _In_ DWORD dwBaud, _In_ Parity parity, _In_ BYTE DataBits, _In_ StopBits stopBits, _In_ FlowControl fc, _In_ BOOL bOverlapped) { Close(); //In case we are already open //Call CreateFile to open the comms port m_hComm = CreateFile(pszPort, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, bOverlapped ? (FILE_ATTRIBUTE_NORMAL | FILE_FLAG_OVERLAPPED) : 0, NULL); if (m_hComm == INVALID_HANDLE_VALUE) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::Open, Failed to open the comms port, Error:%u\n"), dwLastError); //ThrowSerialException(dwLastError); return; } //Get the current state prior to changing it DCB dcb; dcb.DCBlength = sizeof(DCB); GetState(dcb); //Setup the baud rate dcb.BaudRate = dwBaud; //Setup the Parity switch (parity) { case EvenParity: { dcb.Parity = EVENPARITY; break; } case MarkParity: { dcb.Parity = MARKPARITY; break; } case NoParity: { dcb.Parity = NOPARITY; break; } case OddParity: { dcb.Parity = ODDPARITY; break; } case SpaceParity: { dcb.Parity = SPACEPARITY; break; } default: { ATLASSERT(FALSE); break; } } //Setup the data bits dcb.ByteSize = DataBits; //Setup the stop bits switch (stopBits) { case OneStopBit: { dcb.StopBits = ONESTOPBIT; break; } case OnePointFiveStopBits: { dcb.StopBits = ONE5STOPBITS; break; } case TwoStopBits: { dcb.StopBits = TWOSTOPBITS; break; } default: { ATLASSERT(FALSE); break; } } //Setup the flow control dcb.fDsrSensitivity = FALSE; switch (fc) { case NoFlowControl: { dcb.fOutxCtsFlow = FALSE; dcb.fOutxDsrFlow = FALSE; dcb.fOutX = FALSE; dcb.fInX = FALSE; break; } case CtsRtsFlowControl: { dcb.fOutxCtsFlow = TRUE; dcb.fOutxDsrFlow = FALSE; dcb.fRtsControl = RTS_CONTROL_HANDSHAKE; dcb.fOutX = FALSE; dcb.fInX = FALSE; break; } case CtsDtrFlowControl: { dcb.fOutxCtsFlow = TRUE; dcb.fOutxDsrFlow = FALSE; dcb.fDtrControl = DTR_CONTROL_HANDSHAKE; dcb.fOutX = FALSE; dcb.fInX = FALSE; break; } case DsrRtsFlowControl: { dcb.fOutxCtsFlow = FALSE; dcb.fOutxDsrFlow = TRUE; dcb.fRtsControl = RTS_CONTROL_HANDSHAKE; dcb.fOutX = FALSE; dcb.fInX = FALSE; break; } case DsrDtrFlowControl: { dcb.fOutxCtsFlow = FALSE; dcb.fOutxDsrFlow = TRUE; dcb.fDtrControl = DTR_CONTROL_HANDSHAKE; dcb.fOutX = FALSE; dcb.fInX = FALSE; break; } case XonXoffFlowControl: { dcb.fOutxCtsFlow = FALSE; dcb.fOutxDsrFlow = FALSE; dcb.fOutX = TRUE; dcb.fInX = TRUE; dcb.XonChar = 0x11; dcb.XoffChar = 0x13; dcb.XoffLim = 100; dcb.XonLim = 100; break; } default: { ATLASSERT(FALSE); break; } } //Now that we have all the settings in place, make the changes SetState(dcb); } void CSerialPort::Open(_In_ int nPort, _In_ DWORD dwBaud, _In_ Parity parity, _In_ BYTE DataBits, _In_ StopBits stopBits, _In_ FlowControl fc, _In_ BOOL bOverlapped) { //Form the string version of the port number TCHAR szPort[12]; _stprintf_s(szPort, sizeof(szPort) / sizeof(TCHAR), _T("\\\\.\\COM%d"), nPort); //Delegate the work to the other version of Open Open(szPort, dwBaud, parity, DataBits, stopBits, fc, bOverlapped); } void CSerialPort::Close() { if (IsOpen()) { //Close down the comms port CloseHandle(m_hComm); m_hComm = INVALID_HANDLE_VALUE; } } void CSerialPort::Attach(_In_ HANDLE hComm) { Close(); //Validate our parameters, now that the port has been closed ATLASSERT(m_hComm == INVALID_HANDLE_VALUE); m_hComm = hComm; } HANDLE CSerialPort::Detach() { //What will be the return value from this function HANDLE hComm = m_hComm; m_hComm = INVALID_HANDLE_VALUE; return hComm; } void CSerialPort::Read(_Out_writes_bytes_(dwNumberOfBytesToRead) __out_data_source(FILE) void* lpBuffer, _In_ DWORD dwNumberOfBytesToRead) { //Validate our parameters ATLASSERT(IsOpen()); DWORD dwBytesRead = 0; if (!ReadFile(m_hComm, lpBuffer, dwNumberOfBytesToRead, &dwBytesRead, NULL)) { DWORD dwLastError = GetLastError(); if (ERROR_IO_PENDING != dwLastError) ATLTRACE(_T("CSerialPort::Read, Failed in call to ReadFile, Error:%u\n"), dwLastError); // ThrowSerialException(dwLastError); } } void CSerialPort::Read(_Out_writes_bytes_to_opt_(dwNumberOfBytesToRead, *lpNumberOfBytesRead) __out_data_source(FILE) void* lpBuffer, _In_ DWORD dwNumberOfBytesToRead, _In_ OVERLAPPED& overlapped, _Inout_opt_ DWORD* lpNumberOfBytesRead) { //Validate our parameters ATLASSERT(IsOpen()); *lpNumberOfBytesRead = 0; if (overlapped.hEvent) ResetEvent(overlapped.hEvent); if (!ReadFile(m_hComm, lpBuffer, dwNumberOfBytesToRead, lpNumberOfBytesRead, &overlapped)) { DWORD dwLastError = GetLastError(); if (ERROR_IO_PENDING != dwLastError) { ATLTRACE(_T("CSerialPort::Read, Failed in call to ReadFile, Error:%u\n"), dwLastError); } // ThrowSerialException(dwLastError); } } void CSerialPort::ReadEx(_Out_writes_bytes_opt_(dwNumberOfBytesToRead) __out_data_source(FILE) LPVOID lpBuffer, _In_ DWORD dwNumberOfBytesToRead, _Inout_ LPOVERLAPPED lpOverlapped, _In_ LPOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine) { //Validate our parameters ATLASSERT(IsOpen()); if (!ReadFileEx(m_hComm, lpBuffer, dwNumberOfBytesToRead, lpOverlapped, lpCompletionRoutine)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::ReadEx, Failed in call to ReadFileEx, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } DWORD CSerialPort::Write(_In_reads_bytes_opt_(dwNumberOfBytesToWrite) const void* lpBuffer, _In_ DWORD dwNumberOfBytesToWrite) { //Validate our parameters ATLASSERT(IsOpen()); DWORD dwBytesWritten = 0; if (!WriteFile(m_hComm, lpBuffer, dwNumberOfBytesToWrite, &dwBytesWritten, NULL)) { DWORD dwLastError = GetLastError(); if (ERROR_IO_PENDING != dwLastError) ATLTRACE(_T("CSerialPort::Write, Failed in call to WriteFile, Error:%u\n"), dwLastError); //ThrowSerialException(dwLastError); } return dwBytesWritten; } void CSerialPort::Write(_In_reads_bytes_opt_(dwNumberOfBytesToWrite) const void* lpBuffer, _In_ DWORD dwNumberOfBytesToWrite, _In_ OVERLAPPED& overlapped, _Out_opt_ DWORD* lpNumberOfBytesWritten) { //Validate our parameters ATLASSERT(IsOpen()); if (!WriteFile(m_hComm, lpBuffer, dwNumberOfBytesToWrite, lpNumberOfBytesWritten, &overlapped)) { DWORD dwLastError = GetLastError(); if (ERROR_IO_PENDING != dwLastError) { ATLTRACE(_T("CSerialPort::Write, Failed in call to WriteFile, Error:%u\n"), dwLastError); } // ThrowSerialException(dwLastError); } } void CSerialPort::WriteEx(_In_reads_bytes_opt_(dwNumberOfBytesToWrite) LPCVOID lpBuffer, _In_ DWORD dwNumberOfBytesToWrite, _Inout_ LPOVERLAPPED lpOverlapped, _In_ LPOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine) { //Validate our parameters ATLASSERT(IsOpen()); if (!WriteFileEx(m_hComm, lpBuffer, dwNumberOfBytesToWrite, lpOverlapped, lpCompletionRoutine)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::WriteEx, Failed in call to WriteFileEx, Error:%u\n"), dwLastError); //ThrowSerialException(dwLastError); } } DWORD CSerialPort::GetOverlappedResult(_In_ OVERLAPPED& overlapped, _Out_ DWORD& dwBytesTransferred, _In_ BOOL bWait) { //Validate our parameters DWORD dwLastError = 0; ATLASSERT(IsOpen()); dwBytesTransferred = 0; if (!::GetOverlappedResult(m_hComm, &overlapped, &dwBytesTransferred, bWait)) { dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetOverlappedResult, Failed in call to GetOverlappedResult, Error:%u\n"), dwLastError); //ThrowSerialException(dwLastError); } return dwLastError; } void CSerialPort::CancelIo() { //Validate our parameters ATLASSERT(IsOpen()); if (!::CancelIo(m_hComm)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("Failed in call to CancelIO, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } DWORD CSerialPort::BytesWaiting() { //Validate our parameters //ATLASSERT(IsOpen()); if (!IsOpen()) return 0; //Check to see how many characters are unread COMSTAT stat; GetStatus(stat); return stat.cbInQue; } DWORD CSerialPort::BytesPending() { if (!IsOpen()) return 0; //Check to see how many characters are unwrite COMSTAT stat; GetStatus(stat); return stat.cbOutQue; } void CSerialPort::TransmitChar(_In_ char cChar) { //Validate our parameters ATLASSERT(IsOpen()); if (!TransmitCommChar(m_hComm, cChar)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::TransmitChar, Failed in call to TransmitCommChar, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::GetConfig(_In_ COMMCONFIG& config) { //Validate our parameters ATLASSERT(IsOpen()); DWORD dwSize = sizeof(COMMCONFIG); if (!GetCommConfig(m_hComm, &config, &dwSize)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetConfig, Failed in call to GetCommConfig, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::SetConfig(_In_ COMMCONFIG& config) { //Validate our parameters ATLASSERT(IsOpen()); DWORD dwSize = sizeof(COMMCONFIG); if (!SetCommConfig(m_hComm, &config, dwSize)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::SetConfig, Failed in call to SetCommConfig, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::SetBreak() { //Validate our parameters ATLASSERT(IsOpen()); if (!SetCommBreak(m_hComm)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::SetBreak, Failed in call to SetCommBreak, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::ClearBreak() { //Validate our parameters ATLASSERT(IsOpen()); if (!ClearCommBreak(m_hComm)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::ClearBreak, Failed in call to SetCommBreak, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::ClearError(_Out_ DWORD& dwErrors) { //Validate our parameters ATLASSERT(IsOpen()); if (!ClearCommError(m_hComm, &dwErrors, NULL)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::ClearError, Failed in call to ClearCommError, Error:%u\n"), dwLastError); //ThrowSerialException(dwLastError); } } void CSerialPort::GetDefaultConfig(_In_ int nPort, _Out_ COMMCONFIG& config) { //Create the device name as a string TCHAR szPort[12]; _stprintf_s(szPort, sizeof(szPort) / sizeof(TCHAR), _T("COM%d"), nPort); return GetDefaultConfig(szPort, config); } void CSerialPort::GetDefaultConfig(_In_z_ LPCTSTR pszPort, _Out_ COMMCONFIG& config) { DWORD dwSize = sizeof(COMMCONFIG); if (!GetDefaultCommConfig(pszPort, &config, &dwSize)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetDefaultConfig, Failed in call to GetDefaultCommConfig, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::SetDefaultConfig(_In_ int nPort, _In_ COMMCONFIG& config) { //Create the device name as a string TCHAR szPort[12]; _stprintf_s(szPort, sizeof(szPort) / sizeof(TCHAR), _T("COM%d"), nPort); return SetDefaultConfig(szPort, config); } void CSerialPort::SetDefaultConfig(_In_z_ LPCTSTR pszPort, _In_ COMMCONFIG& config) { DWORD dwSize = sizeof(COMMCONFIG); if (!SetDefaultCommConfig(pszPort, &config, dwSize)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::SetDefaultConfig, Failed in call to SetDefaultCommConfig, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::GetStatus(_Out_ COMSTAT& stat) { //Validate our parameters ATLASSERT(IsOpen()); DWORD dwErrors; if (!ClearCommError(m_hComm, &dwErrors, &stat)) { DWORD dwLastError = GetLastError(); stat.cbInQue = 0; ATLTRACE(_T("CSerialPort::GetStatus, Failed in call to ClearCommError, Error:%u\n"), dwLastError); // ThrowSerialException(dwLastError); } } void CSerialPort::GetState(_Out_ DCB& dcb) { //Validate our parameters ATLASSERT(IsOpen()); if (!GetCommState(m_hComm, &dcb)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetState, Failed in call to GetCommState, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::SetState(_In_ DCB& dcb) { //Validate our parameters ATLASSERT(IsOpen()); if (!SetCommState(m_hComm, &dcb)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::SetState, Failed in call to SetCommState, Error:%u\n"), dwLastError); // ThrowSerialException(dwLastError); } } void CSerialPort::Escape(_In_ DWORD dwFunc) { //Validate our parameters ATLASSERT(IsOpen()); if (!EscapeCommFunction(m_hComm, dwFunc)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::Escape, Failed in call to EscapeCommFunction, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::ClearDTR() { Escape(CLRDTR); } void CSerialPort::ClearRTS() { Escape(CLRRTS); } void CSerialPort::SetDTR() { Escape(SETDTR); } void CSerialPort::SetRTS() { Escape(SETRTS); } void CSerialPort::SetXOFF() { Escape(SETXOFF); } void CSerialPort::SetXON() { Escape(SETXON); } void CSerialPort::GetProperties(_Inout_ COMMPROP& properties) { //Validate our parameters ATLASSERT(IsOpen()); if (!GetCommProperties(m_hComm, &properties)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetProperties, Failed in call to GetCommProperties, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::GetModemStatus(_Out_ DWORD& dwModemStatus) { //Validate our parameters ATLASSERT(IsOpen()); if (!GetCommModemStatus(m_hComm, &dwModemStatus)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetModemStatus, Failed in call to GetCommModemStatus, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::SetMask(_In_ DWORD dwMask) { //Validate our parameters ATLASSERT(IsOpen()); if (!SetCommMask(m_hComm, dwMask)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::SetMask, Failed in call to SetCommMask, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::GetMask(_Out_ DWORD& dwMask) { //Validate our parameters ATLASSERT(IsOpen()); if (!GetCommMask(m_hComm, &dwMask)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetMask, Failed in call to GetCommMask, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::Flush() { //Validate our parameters ATLASSERT(IsOpen()); if (!FlushFileBuffers(m_hComm)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::Flush, Failed in call to FlushFileBuffers, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::Purge(_In_ DWORD dwFlags) { //Validate our parameters ATLASSERT(IsOpen()); if (!PurgeComm(m_hComm, dwFlags)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::Purge, Failed in call to PurgeComm, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::TerminateOutstandingWrites() { Purge(PURGE_TXABORT); } void CSerialPort::TerminateOutstandingReads() { Purge(PURGE_RXABORT); } void CSerialPort::ClearWriteBuffer() { Purge(PURGE_TXCLEAR); } void CSerialPort::ClearReadBuffer() { Purge(PURGE_RXCLEAR); } void CSerialPort::Setup(_In_ DWORD dwInQueue, _In_ DWORD dwOutQueue) { //Validate our parameters ATLASSERT(IsOpen()); if (!SetupComm(m_hComm, dwInQueue, dwOutQueue)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::Setup, Failed in call to SetupComm, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::SetTimeouts(_In_ COMMTIMEOUTS& timeouts) { //Validate our parameters ATLASSERT(IsOpen()); if (!SetCommTimeouts(m_hComm, &timeouts)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::SetTimeouts, Failed in call to SetCommTimeouts, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::GetTimeouts(_Out_ COMMTIMEOUTS& timeouts) { //Validate our parameters ATLASSERT(IsOpen()); if (!GetCommTimeouts(m_hComm, &timeouts)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::GetTimeouts, Failed in call to GetCommTimeouts, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } void CSerialPort::Set0Timeout() { COMMTIMEOUTS Timeouts; memset(&Timeouts, 0, sizeof(Timeouts)); Timeouts.ReadIntervalTimeout = MAXDWORD; SetTimeouts(Timeouts); } void CSerialPort::Set0WriteTimeout() { COMMTIMEOUTS Timeouts; GetTimeouts(Timeouts); Timeouts.WriteTotalTimeoutMultiplier = 0; Timeouts.WriteTotalTimeoutConstant = 0; SetTimeouts(Timeouts); } void CSerialPort::Set0ReadTimeout() { COMMTIMEOUTS Timeouts; GetTimeouts(Timeouts); Timeouts.ReadIntervalTimeout = MAXDWORD; Timeouts.ReadTotalTimeoutMultiplier = 0; Timeouts.ReadTotalTimeoutConstant = 0; SetTimeouts(Timeouts); } void CSerialPort::WaitEvent(_Inout_ DWORD& dwMask) { //Validate our parameters ATLASSERT(IsOpen()); if (!WaitCommEvent(m_hComm, &dwMask, NULL)) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::WaitEvent, Failed in call to WaitCommEvent, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } } BOOL CSerialPort::WaitEvent(_Inout_ DWORD& dwMask, _Inout_ OVERLAPPED& overlapped) { //Validate our parameters ATLASSERT(IsOpen()); ATLASSERT(overlapped.hEvent != NULL); BOOL bSuccess = WaitCommEvent(m_hComm, &dwMask, &overlapped); if (!bSuccess) { DWORD dwLastError = GetLastError(); ATLTRACE(_T("CSerialPort::WaitEvent, Failed in call to WaitCommEvent, Error:%u\n"), dwLastError); ThrowSerialException(dwLastError); } return bSuccess; } #pragma once #include "afxwin.h" // 自定义串口异常类 class CSerialException : public CException { public: DWORD m_dwError; CSerialException(DWORD dwError); }; // 串口类声明 class CSerialPort { public: enum Parity { None, Odd, Even }; enum StopBits { One = 1, OnePointFive = 2, Two = 3 }; CSerialPort(); virtual ~CSerialPort(); // 添加 virtual 关键字 BOOL Open(LPCTSTR lpszPort, DWORD dwBaudRate, Parity parity, BYTE byDataBits, StopBits stopBits); void Close(); BOOL IsOpen() const { return m_hComm != INVALID_HANDLE_VALUE; } DWORD Write(const void* lpBuf, DWORD dwCount); DWORD Read(void* lpBuf, DWORD dwCount); DWORD BytesWaiting(); void Set0Timeout(); private: HANDLE m_hComm; }; // CPCMFCDlg 对话框 class CPCMFCDlg : public CDialogEx { public: CPCMFCDlg(CWnd* pParent = nullptr); virtual ~CPCMFCDlg(); #ifdef AFX_DESIGN_TIME enum { IDD = IDD_PCMFC_DIALOG }; #endif protected: virtual void DoDataExchange(CDataExchange* pDX); virtual BOOL OnInitDialog(); protected: HICON m_hIcon; // 控件变量 CComboBox m_cbPort; CComboBox m_cbBaud; CComboBox m_cbParity; CComboBox m_cbDate; CComboBox m_cbStop; CListBox m_listStatus; // 数据变量 CString m_strTime1; CString m_strTime2; CString m_strTime3; // 状态变量 BOOL m_bConnected; BOOL m_bTimerActive; BOOL m_bThreadRunning; // 串口对象 CSerialPort m_SerialPort; HANDLE m_hThread; // 辅助函数 void UpdateControls(); UINT ReadThreadFunc(); static UINT ReadThread(LPVOID pParam); BOOL ValidateTimeFormat(const CString& strTime); // 消息处理 DECLARE_MESSAGE_MAP() afx_msg void OnPaint(); afx_msg HCURSOR OnQueryDragIcon(); afx_msg void OnBnClickedBtnOpen(); afx_msg void OnBnClickedBtnClose(); afx_msg void OnBnClickedBtnFeedNow(); afx_msg void OnBnClickedBtnFeedTimer(); afx_msg LRESULT OnUpdateStatus(WPARAM wParam, LPARAM lParam); afx_msg void OnTimer(UINT_PTR nIDEvent); afx_msg void OnDestroy(); }; #include "pch.h" #include "PCMFC.h" #include "PCMFCDlg.h" #include "afxdialogex.h" #include <winbase.h> #include <tchar.h> #include <atlstr.h> #ifdef _DEBUG #define new DEBUG_NEW #endif #define FEED_COMMAND 0x01 #define COMPLETE_SIGNAL 0xFF #define WM_UPDATE_STATUS (WM_USER + 100) // CSerialException 实现 CSerialException::CSerialException(DWORD dwError) : m_dwError(dwError) {} // CSerialPort 成员函数实现 CSerialPort::CSerialPort() : m_hComm(INVALID_HANDLE_VALUE) {} CSerialPort::~CSerialPort() { if (IsOpen()) Close(); } BOOL CSerialPort::Open(LPCTSTR lpszPort, DWORD dwBaudRate, Parity parity, BYTE byDataBits, StopBits stopBits) { m_hComm = CreateFile(lpszPort, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_FLAG_OVERLAPPED, NULL); if (m_hComm == INVALID_HANDLE_VALUE) throw new CSerialException(GetLastError()); DCB dcb = { 0 }; dcb.DCBlength = sizeof(DCB); if (!GetCommState(m_hComm, &dcb)) throw new CSerialException(GetLastError()); dcb.BaudRate = dwBaudRate; dcb.ByteSize = byDataBits; switch (parity) { case None: dcb.Parity = NOPARITY; break; case Odd: dcb.Parity = ODDPARITY; break; case Even: dcb.Parity = EVENPARITY; break; } switch (stopBits) { case One: dcb.StopBits = ONESTOPBIT; break; case OnePointFive: dcb.StopBits = ONE5STOPBITS; break; case Two: dcb.StopBits = TWOSTOPBITS; break; } dcb.fBinary = TRUE; dcb.fDtrControl = DTR_CONTROL_ENABLE; dcb.fRtsControl = RTS_CONTROL_ENABLE; if (!SetCommState(m_hComm, &dcb)) throw new CSerialException(GetLastError()); // 设置超时 COMMTIMEOUTS timeouts = { 0 }; timeouts.ReadIntervalTimeout = 50; timeouts.ReadTotalTimeoutConstant = 50; timeouts.ReadTotalTimeoutMultiplier = 10; timeouts.WriteTotalTimeoutConstant = 50; timeouts.WriteTotalTimeoutMultiplier = 10; if (!SetCommTimeouts(m_hComm, &timeouts)) throw new CSerialException(GetLastError()); return TRUE; } void CSerialPort::Close() { if (m_hComm != INVALID_HANDLE_VALUE) { CloseHandle(m_hComm); m_hComm = INVALID_HANDLE_VALUE; } } DWORD CSerialPort::Write(const void* lpBuf, DWORD dwCount) { DWORD dwBytesWritten = 0; OVERLAPPED ov = { 0 }; ov.hEvent = CreateEvent(NULL, TRUE, FALSE, NULL); if (!WriteFile(m_hComm, lpBuf, dwCount, &dwBytesWritten, &ov)) { if (GetLastError() == ERROR_IO_PENDING) { WaitForSingleObject(ov.hEvent, INFINITE); GetOverlappedResult(m_hComm, &ov, &dwBytesWritten, FALSE); } else { throw new CSerialException(GetLastError()); } } CloseHandle(ov.hEvent); return dwBytesWritten; } DWORD CSerialPort::Read(void* lpBuf, DWORD dwCount) { DWORD dwBytesRead = 0; OVERLAPPED ov = { 0 }; ov.hEvent = CreateEvent(NULL, TRUE, FALSE, NULL); if (!ReadFile(m_hComm, lpBuf, dwCount, &dwBytesRead, &ov)) { if (GetLastError() == ERROR_IO_PENDING) { WaitForSingleObject(ov.hEvent, INFINITE); GetOverlappedResult(m_hComm, &ov, &dwBytesRead, FALSE); } else { throw new CSerialException(GetLastError()); } } CloseHandle(ov.hEvent); return dwBytesRead; } DWORD CSerialPort::BytesWaiting() { COMSTAT comStat; DWORD dwErrors; if (!ClearCommError(m_hComm, &dwErrors, &comStat)) throw new CSerialException(GetLastError()); return comStat.cbInQue; } void CSerialPort::Set0Timeout() { COMMTIMEOUTS timeouts = { 0 }; timeouts.ReadIntervalTimeout = MAXDWORD; timeouts.ReadTotalTimeoutConstant = 0; timeouts.ReadTotalTimeoutMultiplier = 0; timeouts.WriteTotalTimeoutMultiplier = 0; timeouts.WriteTotalTimeoutConstant = 0; if (!SetCommTimeouts(m_hComm, &timeouts)) throw new CSerialException(GetLastError()); } // CPCMFCDlg 实现 CPCMFCDlg::CPCMFCDlg(CWnd* pParent) : CDialogEx(IDD_PCMFC_DIALOG, pParent) , m_strTime1(_T("08:00")) , m_strTime2(_T("12:00")) , m_strTime3(_T("18:00")) , m_bConnected(FALSE) , m_bTimerActive(FALSE) , m_bThreadRunning(FALSE) , m_hThread(NULL) { m_hIcon = AfxGetApp()->LoadIcon(IDR_MAINFRAME); } CPCMFCDlg::~CPCMFCDlg() { if (m_hThread) { CloseHandle(m_hThread); } } void CPCMFCDlg::DoDataExchange(CDataExchange* pDX) { CDialogEx::DoDataExchange(pDX); DDX_Control(pDX, IDC_COMBO_PORT, m_cbPort); DDX_Control(pDX, IDC_COMBO_BAUD, m_cbBaud); DDX_Control(pDX, IDC_COMBO_PARITY, m_cbParity); DDX_Control(pDX, IDC_COMBO_DATA, m_cbDate); DDX_Control(pDX, IDC_COMBO_STOP, m_cbStop); DDX_Control(pDX, IDC_LIST, m_listStatus); DDX_Text(pDX, IDC_EDIT_TIME1, m_strTime1); DDX_Text(pDX, IDC_EDIT_TIME2, m_strTime2); DDX_Text(pDX, IDC_EDIT_TIME3, m_strTime3); } BEGIN_MESSAGE_MAP(CPCMFCDlg, CDialogEx) ON_WM_PAINT() ON_WM_QUERYDRAGICON() ON_BN_CLICKED(IDC_BUTTON_OPEN, &CPCMFCDlg::OnBnClickedBtnOpen) ON_BN_CLICKED(IDC_BUTTON_CLOSE, &CPCMFCDlg::OnBnClickedBtnClose) ON_BN_CLICKED(IDC_BUTTON_NOWFEED, &CPCMFCDlg::OnBnClickedBtnFeedNow) ON_BN_CLICKED(IDC_BUTTON_TIMEFEED, &CPCMFCDlg::OnBnClickedBtnFeedTimer) ON_MESSAGE(WM_UPDATE_STATUS, &CPCMFCDlg::OnUpdateStatus) ON_WM_TIMER() ON_WM_DESTROY() END_MESSAGE_MAP() BOOL CPCMFCDlg::OnInitDialog() { CDialogEx::OnInitDialog(); SetIcon(m_hIcon, TRUE); SetIcon(m_hIcon, FALSE); // 初始化串口选择下拉框 for (int i = 1; i <= 16; i++) { CString port; port.Format(_T("COM%d"), i); m_cbPort.AddString(port); } m_cbPort.SetCurSel(0); // 初始化波特率下拉框 CString baudRates[] = { _T("9600"), _T("19200"), _T("38400"), _T("57600"), _T("115200") }; for (auto& baud : baudRates) { m_cbBaud.AddString(baud); } m_cbBaud.SetCurSel(0); // 初始化校验位下拉框 CString parityOptions[] = { _T("None"), _T("Odd"), _T("Even") }; for (auto& parity : parityOptions) { m_cbParity.AddString(parity); } m_cbParity.SetCurSel(0); // 初始化数据位下拉框 CString dataBits[] = { _T("5"), _T("6"), _T("7"), _T("8") }; for (auto& bits : dataBits) { m_cbDate.AddString(bits); } m_cbDate.SetCurSel(3); // 初始化停止位下拉框 CString stopBits[] = { _T("1"), _T("1.5"), _T("2") }; for (auto& stop : stopBits) { m_cbStop.AddString(stop); } m_cbStop.SetCurSel(0); // 初始禁用控件 UpdateControls(); return TRUE; } void CPCMFCDlg::UpdateControls() { BOOL bConnected = m_SerialPort.IsOpen(); GetDlgItem(IDC_BUTTON_OPEN)->EnableWindow(!bConnected); GetDlgItem(IDC_BUTTON_CLOSE)->EnableWindow(bConnected); GetDlgItem(IDC_BUTTON_NOWFEED)->EnableWindow(bConnected); GetDlgItem(IDC_BUTTON_TIMEFEED)->EnableWindow(bConnected); BOOL bTimerActive = m_bTimerActive; GetDlgItem(IDC_EDIT_TIME1)->EnableWindow(bConnected && !bTimerActive); GetDlgItem(IDC_EDIT_TIME2)->EnableWindow(bConnected && !bTimerActive); GetDlgItem(IDC_EDIT_TIME3)->EnableWindow(bConnected && !bTimerActive); } BOOL CPCMFCDlg::ValidateTimeFormat(const CString& strTime) { if (strTime.GetLength() != 5) return FALSE; if (strTime[2] != ':') return FALSE; int hour = _ttoi(strTime.Left(2)); int minute = _ttoi(strTime.Mid(3)); return (hour >= 0 && hour <= 23) && (minute >= 0 && minute <= 59); } UINT CPCMFCDlg::ReadThread(LPVOID pParam) { CPCMFCDlg* pDlg = (CPCMFCDlg*)pParam; return pDlg->ReadThreadFunc(); } UINT CPCMFCDlg::ReadThreadFunc() { BYTE buffer[1]; while (m_bThreadRunning) { try { DWORD dwBytes = m_SerialPort.BytesWaiting(); if (dwBytes > 0) { if (m_SerialPort.Read(buffer, 1) > 0) { if (buffer[0] == COMPLETE_SIGNAL) { CString* pMsg = new CString(_T("喂食操作完成")); PostMessage(WM_UPDATE_STATUS, (WPARAM)pMsg, 0); } } } Sleep(50); } catch (CSerialException* e) { CString* pMsg = new CString(); pMsg->Format(_T("串口读取错误: %d"), e->m_dwError); PostMessage(WM_UPDATE_STATUS, (WPARAM)pMsg, 0); delete e; break; } } return 0; } void CPCMFCDlg::OnBnClickedBtnOpen() { CString strPort; m_cbPort.GetWindowText(strPort); strPort = _T("\\\\.\\") + strPort; CString strBaud; m_cbBaud.GetLBText(m_cbBaud.GetCurSel(), strBaud); DWORD dwBaud = _ttoi(strBaud); int nParity = m_cbParity.GetCurSel(); CString strDataBits; m_cbDate.GetLBText(m_cbDate.GetCurSel(), strDataBits); BYTE byDataBits = (BYTE)_ttoi(strDataBits); int nStopBits = m_cbStop.GetCurSel(); try { CSerialPort::Parity parity = static_cast<CSerialPort::Parity>(nParity); CSerialPort::StopBits stopBits = static_cast<CSerialPort::StopBits>(nStopBits); m_SerialPort.Open(strPort, dwBaud, parity, byDataBits, stopBits); m_SerialPort.Set0Timeout(); m_bConnected = TRUE; m_bThreadRunning = TRUE; m_hThread = (HANDLE)_beginthreadex(NULL, 0, ReadThread, this, 0, NULL); m_listStatus.AddString(_T("串口打开成功")); } catch (CSerialException* e) { CString strError; strError.Format(_T("打开串口失败: 错误代码 %d"), e->m_dwError); m_listStatus.AddString(strError); delete e; m_bConnected = FALSE; } UpdateControls(); } void CPCMFCDlg::OnBnClickedBtnClose() { m_bThreadRunning = FALSE; if (m_hThread) { WaitForSingleObject(m_hThread, 1000); CloseHandle(m_hThread); m_hThread = NULL; } try { if (m_SerialPort.IsOpen()) { m_SerialPort.Close(); m_listStatus.AddString(_T("串口已关闭")); } } catch (CSerialException* e) { delete e; } m_bConnected = FALSE; UpdateControls(); } void CPCMFCDlg::OnBnClickedBtnFeedNow() { BYTE cmd = FEED_COMMAND; try { if (m_SerialPort.IsOpen()) { m_SerialPort.Write(&cmd, 1); m_listStatus.AddString(_T("喂食命令已发送")); } } catch (CSerialException* e) { CString strError; strError.Format(_T("发送失败: 错误代码 %d"), e->m_dwError); m_listStatus.AddString(strError); delete e; } } void CPCMFCDlg::OnBnClickedBtnFeedTimer() { if (m_bTimerActive) { KillTimer(1); m_bTimerActive = FALSE; GetDlgItem(IDC_BUTTON_TIMEFEED)->SetWindowText(_T("开始定时")); m_listStatus.AddString(_T("定时器已停止")); } else { UpdateData(TRUE); // 验证时间格式 if (!ValidateTimeFormat(m_strTime1) || !ValidateTimeFormat(m_strTime2) || !ValidateTimeFormat(m_strTime3)) { MessageBox(_T("时间格式无效! 请使用HH:MM格式"), _T("错误"), MB_ICONERROR); return; } m_bTimerActive = TRUE; SetTimer(1, 1000, NULL); // 每秒检查一次 GetDlgItem(IDC_BUTTON_TIMEFEED)->SetWindowText(_T("停止定时")); m_listStatus.AddString(_T("定时器已启动")); } UpdateControls(); } void CPCMFCDlg::OnTimer(UINT_PTR nIDEvent) { if (nIDEvent == 1) { CTime now = CTime::GetCurrentTime(); CString strNow = now.Format(_T("%H:%M")); if (strNow == m_strTime1 || strNow == m_strTime2 || strNow == m_strTime3) { OnBnClickedBtnFeedNow(); } } CDialogEx::OnTimer(nIDEvent); } LRESULT CPCMFCDlg::OnUpdateStatus(WPARAM wParam, LPARAM lParam) { CString* pStr = (CString*)wParam; if (pStr) { m_listStatus.AddString(*pStr); delete pStr; } return 0; } void CPCMFCDlg::OnDestroy() { CDialogEx::OnDestroy(); if (m_bTimerActive) { KillTimer(1); } m_bThreadRunning = FALSE; if (m_hThread) { WaitForSingleObject(m_hThread, 1000); CloseHandle(m_hThread); m_hThread = NULL; } if (m_SerialPort.IsOpen()) { m_SerialPort.Close(); } } void CPCMFCDlg::OnPaint() { if (IsIconic()) { CPaintDC dc(this); SendMessage(WM_ICONERASEBKGND, reinterpret_cast<WPARAM>(dc.GetSafeHdc()), 0); int cxIcon = GetSystemMetrics(SM_CXICON); int cyIcon = GetSystemMetrics(SM_CYICON); CRect rect; GetClientRect(&rect); int x = (rect.Width() - cxIcon + 1) / 2; int y = (rect.Height() - cyIcon + 1) / 2; dc.DrawIcon(x, y, m_hIcon); } else { CDialogEx::OnPaint(); } } HCURSOR CPCMFCDlg::OnQueryDragIcon() { return static_cast<HCURSOR>(m_hIcon); } "public: void __cdecl CSerialPort::Set0Timeout(void)" (?Set0Timeout@CSerialPort@@QEAAXXZ) 已经在 PCMFCDlg.obj 中定义 "public: unsigned long __cdecl CSerialPort::BytesWaiting(void)" (?BytesWaiting@CSerialPort@@QEAAKXZ) 已经在 PCMFCDlg.obj 中定义 "public: unsigned long __cdecl CSerialPort::Write(void const *,unsigned long)" (?Write@CSerialPort@@QEAAKPEBXK@Z) 已经在 PCMFCDlg.obj 中定义 "public: void __cdecl CSerialPort::Close(void)" (?Close@CSerialPort@@QEAAXXZ) 已经在 PCMFCDlg.obj 中定义 "public: virtual __cdecl CSerialPort::~CSerialPort(void)" (??1CSerialPort@@UEAA@XZ) 已经在 PCMFCDlg.obj 中定义 "public: __cdecl CSerialPort::CSerialPort(void)" (??0CSerialPort@@QEAA@XZ) 已经在 PCMFCDlg.obj 中定义 "public: __cdecl CSerialException::CSerialException(unsigned long)" (??0CSerialException@@QEAA@K@Z) 已经在 PCMFCDlg.obj 中定义 找到一个或多个多重定义的符号 请你解决这些问题
06-04
<think>根据用户描述,项目使用了多个文件:SerialPort.h和SerialPort.cpp(第三方串口库),以及用户自己编写的PCMFCDlg.h和PCMFCDlg.cpp(MFC对话框类)。问题出现在编译时出现多重定义错误,例如:"public:void__cdeclCSerialPort::Set0Timeout(void)"已经在PCMFCDlg.obj中定义原因分析:1.第三方串口库(SerialPort.h和SerialPort.cpp)中已经定义了CSerialPort和CSerialException类。2.在用户自己的PCMFCDlg.h中又定义了同名类(CSerialPort和CSerialException),导致链接时出现重复定义。解决方案:删除PCMFCDlg.h和PCMFCDlg.cpp中自定义的CSerialPort和CSerialException类,改为使用第三方串口库中的类。具体步骤:1.在PCMFCDlg.h中,移除自定义的CSerialException和CSerialPort类的声明和实现(即移除用户自己写的串口类)。2.在PCMFCDlg.cpp中,包含SerialPort.h头文件,并使用其中的CSerialPort类。3.在PCMFCDlg.cpp中,移除自定义的CSerialPort和CSerialException的实现代码(即用户自己写的成员函数实现)。4.由于第三方库的CSerialPort类中,Open函数的参数列表与用户自定义的不同,需要调整调用Open函数的方式。5.另外,第三方库的CSerialPort类没有定义Parity和StopBits的枚举,而是使用了自己的枚举(在CSerialPort::Parity和CSerialPort::StopBits中)。因此,在调用Open时,需要调整参数。修改后的PCMFCDlg.h中去掉自定义的串口类,并包含第三方串口库头文件:```cpp#include"SerialPort.h"//使用第三方串口库```修改后的PCMFCDlg.h中对话框类的声明:```cppclassCPCMFCDlg:publicCDialogEx{...//其他保持不变private:CSerialPortm_SerialPort;//使用第三方库中的CSerialPort...//其他成员};```同时,在PCMFCDlg.cpp中,我们使用第三方串口库的CSerialPort,因此需要调整打开串口的代码,以匹配其Open函数的参数。原用户自定义的Open函数调用:```cppm_SerialPort.Open(strPort,dwBaud,parity,byDataBits,stopBits);```第三方库的Open函数有两个版本,我们可以使用接收字符串的版本:```cppvoidCSerialPort::Open(LPCTSTRpszPort,DWORDdwBaud=9600,Parityparity=NoParity,BYTEDataBits=8,StopBitsstopBits=OneStopBit,FlowControlfc=NoFlowControl,BOOLbOverlapped=FALSE);```因此,在CPCMFCDlg::OnBnClickedBtnOpen()中,我们需要这样调用:```cpp//注意:第三方库的Parity枚举值与自定义不同,需要转换CSerialPort::Parityparity;switch(nParity){case0:parity=CSerialPort::NoParity;break;case1:parity=CSerialPort::OddParity;break;case2:parity=CSerialPort::EvenParity;break;//注意:第三方库还支持MarkParity和SpaceParity,但我们界面上只有None,Odd,Even,所以这样转换}CSerialPort::StopBitsstopBits;switch(nStopBits){case0:stopBits=CSerialPort::OneStopBit;break;case1:stopBits=CSerialPort::OnePointFiveStopBits;break;case2:stopBits=CSerialPort::TwoStopBits;break;}//数据位直接传入,默认流控为NoFlowControl,使用重叠IO(异步)方式m_SerialPort.Open(strPort,dwBaud,parity,byDataBits,stopBits,CSerialPort::NoFlowControl,TRUE);```另外,第三方库的CSerialPort类提供了Set0Timeout方法,我们可以直接使用。对于读取线程中使用的BytesWaiting方法,第三方库也提供了,所以可以直接使用。注意:第三方库的CSerialPort类中,Read和Write函数使用异常处理(抛出CSerialException)。因此,在使用这些函数时,我们需要捕获异常。例如,在读取线程函数中:```cpptry{DWORDdwBytes=m_SerialPort.BytesWaiting();if(dwBytes>0){BYTEbuffer[1];//注意:第三方库的Read函数是阻塞的,但我们使用了超时设置(Set0Timeout设置为非阻塞),并且BytesWaiting>0,所以可以安全读取//但我们只读取一个字节m_SerialPort.Read(buffer,1);//处理buffer[0]}}catch(CSerialException*e){//处理异常}```需要注意的是,第三方库的CSerialPort类在打开时可以选择重叠I/O(异步),因此在Open函数的最后一个参数传入TRUE,这样读写操作可以使用重叠操作。但在上面的示例中,我们使用的是同步读取(在读取线程中不断轮询),所以使用同步方式读取Read函数在BytesWaiting>0时调用,可以立即返回)。由于第三方库中的Read函数在同步模式下(非重叠)是阻塞的,即使我们设置了超时(Set0Timeout)为非阻塞,实际上,当BytesWaiting为0时调用Read会立即返回(超时返回0)。所以我们用BytesWaiting检查后读取是安全的。修改后的OnBnClickedBtnOpen()中打开串口的完整代码:```cppvoidCPCMFCDlg::OnBnClickedBtnOpen(){CStringstrPort;m_cbPort.GetWindowText(strPort);strPort=_T("\\\\.\\")+strPort;CStringstrBaud;m_cbBaud.GetLBText(m_cbBaud.GetCurSel(),strBaud);DWORDdwBaud=_ttoi(strBaud);intnParity=m_cbParity.GetCurSel();CSerialPort::Parityparity;switch(nParity){case0:parity=CSerialPort::NoParity;break;case1:parity=CSerialPort::OddParity;break;case2:parity=CSerialPort::EvenParity;break;default:parity=CSerialPort::NoParity;break;}CStringstrDataBits;m_cbDate.GetLBText(m_cbDate.GetCurSel(),strDataBits);BYTEbyDataBits=(BYTE)_ttoi(strDataBits);intnStopBits=m_cbStop.GetCurSel();CSerialPort::StopBitsstopBits;switch(nStopBits){case0:stopBits=CSerialPort::OneStopBit;break;case1:stopBits=CSerialPort::OnePointFiveStopBits;break;case2:stopBits=CSerialPort::TwoStopBits;break;default:stopBits=CSerialPort::OneStopBit;break;}try{m_SerialPort.Open(strPort,dwBaud,parity,byDataBits,stopBits,CSerialPort::NoFlowControl,TRUE);m_SerialPort.Set0Timeout();//设置非阻塞读取(超时设置)m_bConnected=TRUE;m_bThreadRunning=TRUE;m_hThread=(HANDLE)_beginthreadex(NULL,0,ReadThread,this,0,NULL);m_listStatus.AddString(_T("串口打开成功"));}catch(CSerialException*e){CStringstrError;strError.Format(_T("打开串口失败:错误代码%d"),e->m_dwError);m_listStatus.AddString(strError);deletee;m_bConnected=FALSE;}UpdateControls();}```在读取线程函数中,使用第三方库的BytesWaiting和Read:```cppUINTCPCMFCDlg::ReadThreadFunc(){BYTEbuffer[1];while(m_bThreadRunning){try{DWORDdwBytes=m_SerialPort.BytesWaiting();if(dwBytes>0){//注意:Read函数会读取指定字节数,但这里我们只读取一个字节,因为单片机每次只发一个字节(0xFF)m_SerialPort.Read(buffer,1);if(buffer[0]==COMPLETE_SIGNAL){CString*pMsg=newCString(_T("喂食操作完成"));PostMessage(WM_UPDATE_STATUS,(WPARAM)pMsg,0);}}Sleep(50);//休眠一下,避免占用过多CPU}catch(CSerialException*e){CString*pMsg=newCString();pMsg->Format(_T("串口读取错误:%d"),e->m_dwError);PostMessage(WM_UPDATE_STATUS,(WPARAM)pMsg,0);deletee;break;}}return0;}```在发送喂食命令时:```cppvoidCPCMFCDlg::OnBnClickedBtnFeedNow(){BYTEcmd=FEED_COMMAND;try{if(m_SerialPort.IsOpen()){m_SerialPort.Write(&cmd,1);m_listStatus.AddString(_T("喂食命令已发送"));}}catch(CSerialException*e){CStringstrError;strError.Format(_T("发送失败:错误代码%d"),e->m_dwError);m_listStatus.AddString(strError);deletee;}}```在关闭串口时,我们不再需要手动调用Close,因为第三方库的析构函数会自动调用Close,但为了确保线程安全,我们先停止线程,然后关闭串口(通过Close函数)。```cppvoidCPCMFCDlg::OnBnClickedBtnClose(){m_bThreadRunning=FALSE;if(m_hThread){WaitForSingleObject(m_hThread,1000);CloseHandle(m_hThread);m_hThread=NULL;}try{if(m_SerialPort.IsOpen()){m_SerialPort.Close();m_listStatus.AddString(_T("串口已关闭"));}}catch(CSerialException*e){CStringstrError;strError.Format(_T("关闭串口错误:%d"),e->m_dwError);m_listStatus.AddString(strError);deletee;}m_bConnected=FALSE;UpdateControls();}```其他代码保持不变。注意:第三方库的SerialPort.h中使用了预处理指令防止重复包含,因此我们只需在PCMFCDlg.h中包含一次即可。另外,在项目中,SerialPort.h和SerialPort.cpp应该被包含在项目中,并与PCMFCDlg.cpp一起编译,这样就不会出现重复定义的错误了,因为我们移除了用户自己定义的串口类。最后,由于第三方库的CSerialPort类没有提供默认的virtual析构函数,但我们在使用中不会遇到问题,因为用户不会继承这个类。但如果需要,我们可以考虑修改第三方库(添加virtual析构函数)或者确保使用时不继承。这样修改后,重新编译应该就没有多重定义的错误了。注意:用户提供的SerialPort.h和SerialPort.cpp代码中,CSerialPort类的函数实现中有些地方在出错时被注释掉ThrowSerialException,我们重新打开这些异常抛出,或者根据需要进行调整。但为了保持代码的健壮性,我们在使用中已经捕获异常,所以可以保留这些抛出。以上是解决方案。由于代码较长,只贴出关键修改部分。</think> ### 问题分析 您的问题是"多重定义的符号"链接错误。原因是在`PCMFCDlg.cpp`文件中定义了`CSerialPort`类的成员函数,同时这些实现在`SerialPort.cpp`中也存在。这表明您试图重新实现SerialPort类而不是使用已有的实现。 ### 解决方案 我将重构您的代码: 1. 移除`PCMFCDlg.h/cpp`中的自定义串口类实现 2. 只使用`SerialPort.h/cpp`提供的功能 3. 调整调用逻辑以适应真正的SerialPort类 ```cpp // PCMFCDlg.h #pragma once #include "SerialPort.h" class CPCMFCDlg : public CDialogEx { public: // ...其他不变... private: CSerialPort m_SerialPort; // ...其他不变... }; ``` ```cpp // PCMFCDlg.cpp void CPCMFCDlg::OnBnClickedBtnOpen() { CString strPort; m_cbPort.GetWindowText(strPort); strPort = _T("\\\\.\\") + strPort; CString strBaud; m_cbBaud.GetLBText(m_cbBaud.GetCurSel(), strBaud); DWORD dwBaud = _ttoi(strBaud); int nParity = m_cbParity.GetCurSel(); CSerialPort::Parity parity; switch(nParity) { case 0: parity = CSerialPort::NoParity; break; case 1: parity = CSerialPort::OddParity; break; case 2: parity = CSerialPort::EvenParity; break; default: parity = CSerialPort::NoParity; } CString strDataBits; m_cbDate.GetLBText(m_cbDate.GetCurSel(), strDataBits); BYTE byDataBits = (BYTE)_ttoi(strDataBits); int nStopBits = m_cbStop.GetCurSel(); CSerialPort::StopBits stopBits; switch(nStopBits) { case 0: stopBits = CSerialPort::OneStopBit; break; case 1: stopBits = CSerialPort::OnePointFiveStopBits; break; case 2: stopBits = CSerialPort::TwoStopBits; break; default: stopBits = CSerialPort::OneStopBit; } try { m_SerialPort.Open(strPort, dwBaud, parity, byDataBits, stopBits, CSerialPort::NoFlowControl, TRUE); m_SerialPort.Set0Timeout(); m_bConnected = TRUE; m_bThreadRunning = TRUE; m_hThread = (HANDLE)_beginthreadex(NULL, 0, ReadThread, this, 0, NULL); m_listStatus.AddString(_T("串口打开成功")); } catch(CSerialException* e) { CString strError; strError.Format(_T("打开串口失败: 错误代码 %d"), e->m_dwError); m_listStatus.AddString(strError); delete e; m_bConnected = FALSE; } UpdateControls(); } DWORD CPCMFCDlg::SendCommand(BYTE cmd) { if(!m_SerialPort.IsOpen()) return 0; try { DWORD written = m_SerialPort.Write(&cmd, 1); return written; } catch(CSerialException* e) { delete e; return 0; } } UINT CPCMFCDlg::ReadThreadFunc() { BYTE buffer[1]; while(m_bThreadRunning) { try { DWORD available = m_SerialPort.BytesWaiting(); if(available > 0) { DWORD read = m_SerialPort.Read(buffer, 1); if(read > 0 && buffer[0] == COMPLETE_SIGNAL) { PostMessage(WM_UPDATE_STATUS, 0, (LPARAM)new CString(_T("喂食操作完成"))); } } Sleep(50); } catch(CSerialException* e) { delete e; break; } } return 0; } ``` ### 主要修改点: 1. **移除了自定义的`CSerialPort`实现** - 完全使用您提供的`SerialPort.h/cpp`中的实现 - 保留了`CSerialException`类 2. **调整了串口配置方式** ```cpp m_SerialPort.Open(strPort, dwBaud, parity, byDataBits, stopBits, CSerialPort::NoFlowControl, TRUE); ``` 3. **使用了正确的异常处理方式** ```cpp try { // 串口操作 } catch(CSerialException* e) { // 异常处理 delete e; } ``` 4. **遵循了SerialPort类的设计模式** - 使用`Set0Timeout()`设置超时 - 使用`BytesWaiting()`检查数据 - 正确处理异常对象的内存管理 ### 注意事项: 1. 确保项目文件包含: - `SerialPort.h` - `SerialPort.cpp` - `PCMFCDlg.h` - `PCMFCDlg.cpp` (移除了自定义的串口类实现) 2. 编译选项: - 在项目属性中添加预处理定义 `CSERIALPORT_MFC_EXTENSIONS` - 确保使用Unicode字符集 3. 错误处理: - 所有SerialPort操作都在try-catch块中 - 捕获的异常对象需要手动delete 4. 资源清理: ```cpp void CPCMFCDlg::OnDestroy() { if(m_bThreadRunning) { m_bThreadRunning = FALSE; WaitForSingleObject(m_hThread, 1000); } if(m_SerialPort.IsOpen()) { m_SerialPort.Close(); } // ...其他清理... } ```
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