#include "pch.h"
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#include "PLCSignalListener.h"
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// === 日志打印类型 ===
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#define LOG_TYPE_ERROR -1
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#define LOG_TYPE_SUCCESS 0
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#define LOG_TYPE_WARNING 1
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#define LOG_TYPE_NORMAL 2
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// === 日志打印宏定义 ===
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#define LOG_MSG(msg, type) LogInfo(msg, type)
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// === PLC 心跳相关配置 ===
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#define PLC_HEARTBEAT_PC_TO_PLC_ADDR 0x107F // PC -> PLC:PC 写入心跳
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#define PLC_HEARTBEAT_PLC_TO_PC_ADDR 0x6C40 // PLC -> PC:PC 读取 PLC 写入的心跳
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#define MAX_MISSED_HEARTBEAT 5 // 允许连续丢失心跳的最大次数,超过则判定 PLC 掉线
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// === PLC 命令输入配置(PLC -> PC) ===
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#define PLC_CMD_BIT_START 0x6CD3 // PLC命令起始位(通常为B6CD3)
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#define PLC_CMD_BIT_COUNT 2 // 总共几个命令位(B6CD3=Start, B6CD4=Stop)
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// === PLC 应答输出配置(PC -> PLC) ===
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#define PLC_ACK_MAX_LIFE 25 // PLC响应信号最大保留周期数(每周期为 m_nIntervalMs 毫秒)
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#define PLC_ACK_BASE_BIT 0x1060 // PLC应答起始地址(B1060表示B6CD3的应答;B1061表示B6CD4的应答)
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// === PLC软元件类型宏(用于应答、数据写入)===
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#define PLC_BIT_DEVICE_TYPE DeviceType::B // 位操作设备类型(如M、B)
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#define PLC_WORD_DEVICE_TYPE DeviceType::W // 字操作设备类型(如D、W)
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// === PLC结果寄存器地址配置 ===
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#define PLC_RESULT_ADDR_START 0x37B0 // PLC结果寄存器起始地址(如W37B0)
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#define PLC_RESULT_ADDR_COUNT 4 // 结果寄存器数量(如W37B0, W37B2, W37B4, W37B6)
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// === PLC 产品ID配置(PLC -> PC)===
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#define PLC_PRODUCT_ID_ADDR 0x1B160 // 产品ID起始地址 (W1B160)
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#define PLC_PRODUCT_ID_WORDS 10 // 产品ID长度(10个Word)
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#define IS_RISING_EDGE(prev, curr) (!(prev) && (curr))
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CPLCSignalListener::CPLCSignalListener() = default;
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CPLCSignalListener::~CPLCSignalListener() {
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Stop();
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}
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bool CPLCSignalListener::Initialize(StationIdentifier station, int nIntervalMs/* = 200*/)
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{
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m_pPlc = std::make_unique<CCCLinkIEControl>();
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if (!m_pPlc) {
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LOG_MSG(_T("PLC控制器初始化失败,无法创建 CCCLinkIEControl 实例。"), LOG_TYPE_ERROR);
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return false;
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}
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int ret = m_pPlc->Connect(CC_LINK_IE_CONTROL_CHANNEL(1));
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if (ret != 0) {
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m_bConnected = false;
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CString strError;
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strError.Format(_T("PLC控制器连接失败,错误码:%d"), ret);
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LOG_MSG(strError, LOG_TYPE_ERROR);
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return false;
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}
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m_bConnected = true;
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m_station = station;
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m_nIntervalMs = nIntervalMs;
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m_vecPrevBits.assign(PLC_CMD_BIT_COUNT, false);
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return true;
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}
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void CPLCSignalListener::SetStartCallback(Callback cb)
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{
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m_cbStart = std::move(cb);
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}
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void CPLCSignalListener::SetStopCallback(Callback cb)
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{
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m_cbStop = std::move(cb);
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}
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void CPLCSignalListener::SetAnalyzeCallback(AnalyzeCallback cb)
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{
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m_cbAnalyze = std::move(cb);
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}
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void CPLCSignalListener::SetLogCallback(LogCallback cb)
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{
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m_cbLog = std::move(cb);
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}
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bool CPLCSignalListener::Start()
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{
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if (m_bRunning || !m_pPlc) {
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LOG_MSG(_T("PLC信号监听器已在运行或PLC控制器未初始化。"), LOG_TYPE_ERROR);
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return false;
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}
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m_bRunning = true;
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m_thread = std::thread(&CPLCSignalListener::ThreadProc, this);
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StartHeartbeatMonitor();
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return true;
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}
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void CPLCSignalListener::Stop()
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{
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m_bRunning = false;
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if (m_thread.joinable()) {
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m_thread.join();
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}
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StopHeartbeatMonitor();
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}
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void CPLCSignalListener::LogInfo(const CString& strText, int nType)
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{
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if (m_cbLog) {
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m_cbLog(strText, nType);
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}
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}
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bool CPLCSignalListener::SendHeartbeat()
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{
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if (!m_pPlc || !m_bConnected) {
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return false;
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}
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static bool bToggle = false;
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bToggle = !bToggle;
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int ret = m_pPlc->WriteBitDataEx(m_station, PLC_BIT_DEVICE_TYPE, PLC_HEARTBEAT_PC_TO_PLC_ADDR, BitContainer{ bToggle });
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return (ret == 0);
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}
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bool CPLCSignalListener::CheckHeartbeat()
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{
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static bool bLastHeartbeat = false;
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if (!m_pPlc || !m_bConnected) {
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return false;
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}
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BitContainer vec;
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int ret = m_pPlc->ReadBitDataEx(m_station, PLC_BIT_DEVICE_TYPE, PLC_HEARTBEAT_PLC_TO_PC_ADDR, 1, vec);
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if (ret != 0 || vec.empty()) {
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return false;
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}
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bool bCurrent = vec[0];
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bool bChanged = (bCurrent != bLastHeartbeat);
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bLastHeartbeat = bCurrent;
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return bChanged;
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}
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bool CPLCSignalListener::MonitorHeartbeat()
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{
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if (CheckHeartbeat()) {
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m_nMissedHeartbeatCount = 0;
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if (m_bHeartbeatLost) {
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m_bHeartbeatLost = false;
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LOG_MSG(_T("PLC心跳恢复!"), LOG_TYPE_SUCCESS);
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}
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return true;
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}
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else {
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m_nMissedHeartbeatCount++;
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if (m_nMissedHeartbeatCount > MAX_MISSED_HEARTBEAT) {
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if (!m_bHeartbeatLost) {
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m_bHeartbeatLost = true;
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m_nMissedHeartbeatCount = 0;
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LOG_MSG(_T("PLC心跳信号中断!"), LOG_TYPE_ERROR);
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}
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return false;
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}
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}
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return true;
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}
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void CPLCSignalListener::StartHeartbeatMonitor()
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{
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m_bHeartbeatRunning = true;
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m_heartbeatThread = std::thread([this]() {
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while (m_bHeartbeatRunning) {
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SendHeartbeat();
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MonitorHeartbeat();
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std::this_thread::sleep_for(std::chrono::milliseconds(m_nIntervalMs * 5));
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}
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});
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}
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void CPLCSignalListener::StopHeartbeatMonitor()
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{
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m_bHeartbeatRunning = false;
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if (m_heartbeatThread.joinable()) {
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m_heartbeatThread.join();
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}
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}
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void CPLCSignalListener::PulseBitDevice(DeviceType eDevType, long nBitNo, int nDelayMs/* = 50*/)
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{
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m_pPlc->SetBitDeviceEx(m_station, eDevType, nBitNo);
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::Sleep(nDelayMs);
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m_pPlc->ResetBitDeviceEx(m_station, eDevType, nBitNo);
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}
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void CPLCSignalListener::HandleAckLife(int i, bool bCurrTriggerBit)
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{
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if (m_vecAckSent[i] && !bCurrTriggerBit) {
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m_pPlc->ResetBitDeviceEx(m_station, PLC_BIT_DEVICE_TYPE, long(PLC_ACK_BASE_BIT + i));
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m_vecAckSent[i] = false;
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}
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if (m_vecAckSent[i]) {
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if (++m_vecAckCounter[i] > PLC_ACK_MAX_LIFE) {
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m_pPlc->ResetBitDeviceEx(m_station, PLC_BIT_DEVICE_TYPE, long(PLC_ACK_BASE_BIT + i));
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m_vecAckSent[i] = false;
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}
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}
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}
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void CPLCSignalListener::ThreadProc()
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{
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while (m_bRunning && m_bConnected) {
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BitContainer vecBits;
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int ret = m_pPlc->ReadBitDataEx(m_station, PLC_BIT_DEVICE_TYPE, PLC_CMD_BIT_START, PLC_CMD_BIT_COUNT, vecBits);
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if (ret != 0 && vecBits.size() != PLC_CMD_BIT_COUNT) {
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::Sleep(m_nIntervalMs);
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CString strError;
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strError.Format(_T("PLC读取位数据失败,错误码:%d"), ret);
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LOG_MSG(strError, LOG_TYPE_ERROR);
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continue;
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}
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for (int i = 0; i < PLC_CMD_BIT_COUNT; ++i) {
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if (IS_RISING_EDGE(m_vecPrevBits[i], vecBits[i])) {
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// 上升沿触发
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switch (i) {
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case 0:
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// Start 命令
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if (m_cbStart) {
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m_cbStart();
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WriteOutValues(OutValuesArray{ 0.0, 0.0, 0.0, 0.0 });
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std::string strProductID;
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if (ReadProductID(strProductID)) {
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CString msg;
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msg.Format(_T("读取到产品ID:%s"), strProductID);
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LOG_MSG(msg, LOG_TYPE_SUCCESS);
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}
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}
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// 发送应答信号
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if (m_pPlc->SetBitDeviceEx(m_station, PLC_BIT_DEVICE_TYPE, PLC_ACK_BASE_BIT + i) == 0) {
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m_vecAckSent[i] = true;
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m_vecAckCounter[i] = 0;
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}
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break;
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case 1:
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// Stop 命令
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if (m_cbStop) {
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m_cbStop();
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}
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// Analyze 命令
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if (m_cbAnalyze) {
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auto results = m_cbAnalyze();
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WriteOutValues(results);
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}
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// 发送应答信号
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if (m_pPlc->SetBitDeviceEx(m_station, PLC_BIT_DEVICE_TYPE, PLC_ACK_BASE_BIT + i) == 0) {
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m_vecAckSent[i] = true;
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m_vecAckCounter[i] = 0;
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}
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break;
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}
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}
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HandleAckLife(i, vecBits[i]);
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m_vecPrevBits[i] = vecBits[i];
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}
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::Sleep(m_nIntervalMs);
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}
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}
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bool CPLCSignalListener::WriteOutValues(const OutValuesArray& values)
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{
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if (!m_pPlc || !m_bConnected) {
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LOG_MSG(_T("PLC未连接或未初始化,无法写入输出值。"), LOG_TYPE_ERROR);
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return false;
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}
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if (PLC_RESULT_ADDR_COUNT != 4) {
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LOG_MSG(_T("PLC结果寄存器数量配置错误,必须为4个。"), LOG_TYPE_ERROR);
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return false;
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}
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for (int i = 0; i < PLC_RESULT_ADDR_COUNT; ++i) {
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// 放大1000倍并四舍五入,转为PLC整数
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int32_t nScaled = static_cast<int32_t>(std::round(values[i] * 1000.0));
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DWordContainer vec = { static_cast<uint32_t>(nScaled) };
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short nTargetAddr = PLC_RESULT_ADDR_START + i * 2;
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int ret = m_pPlc->WriteDWordDataEx(m_station, PLC_WORD_DEVICE_TYPE, nTargetAddr, vec);
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if (ret != 0) {
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CString msg;
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msg.Format(_T("写入OUT%d到地址%d失败,值=%.2f"), i + 1, nTargetAddr, values[i]);
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LOG_MSG(msg, LOG_TYPE_ERROR);
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return false;
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}
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}
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return true;
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}
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bool CPLCSignalListener::ReadProductID(std::string& strProductID)
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{
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if (!m_pPlc || !m_bConnected) {
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LOG_MSG(_T("PLC未连接或未初始化,无法读取产品ID。"), LOG_TYPE_ERROR);
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return false;
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}
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WordContainer vec;
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int ret = m_pPlc->ReadWordDataEx(m_station, PLC_WORD_DEVICE_TYPE, PLC_PRODUCT_ID_ADDR, PLC_PRODUCT_ID_WORDS, vec);
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if (ret != 0 || vec.size() != PLC_PRODUCT_ID_WORDS) {
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CString msg;
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msg.Format(_T("读取产品ID失败,错误码=%d"), ret);
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LOG_MSG(msg, LOG_TYPE_ERROR);
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return false;
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}
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strProductID.clear();
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strProductID.reserve(PLC_PRODUCT_ID_WORDS * 2);
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for (auto w : vec) {
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char c1 = static_cast<char>(w & 0xFF); // 低字节
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char c2 = static_cast<char>((w >> 8) & 0xFF); // 高字节
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if (c1 == '\0') {
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break;
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}
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strProductID.push_back(c1);
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if (c2 == '\0') {
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break;
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}
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strProductID.push_back(c2);
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}
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return true;
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}
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