#include "pch.h" #include "ATPControl_Serial_QT.h" ZZ_ATPControl_Serial_Qt::ZZ_ATPControl_Serial_Qt() { m_pSerialPort = new QSerialPort; //connect(m_pSerialPort, &QSerialPort::readyRead, this, &ZZ_ATPControl_Serial_Qt::ReadMessage); m_iBaudRate = 115200; } ZZ_ATPControl_Serial_Qt::~ZZ_ATPControl_Serial_Qt() { if (m_pSerialPort != NULL) { delete m_pSerialPort; } } int ZZ_ATPControl_Serial_Qt::SetBaudRate(int iBaud) { m_iBaudRate = iBaud; return 0; } int ZZ_ATPControl_Serial_Qt::ATPInitialize(ZZ_U8 ucPortNumber) { QString qstrPortName = QString("COM%1").arg(ucPortNumber); m_pSerialPort->setPortName(qstrPortName); m_pSerialPort->setReadBufferSize(512); bool bRes = m_pSerialPort->setBaudRate(m_iBaudRate); if (!bRes) { qDebug() << "Err:setBaudRate Failed.Exit Code:1"; //std::cout << "Err.setBaudRate Failed" << std::endl; return 1; } bRes = m_pSerialPort->open(QIODevice::ReadWrite); if (!bRes) { qDebug() << "Err:open Failed.Exit Code:2"; //std::cout << "Err.open Failed" << std::endl; return 2; } return 0; } int ZZ_ATPControl_Serial_Qt::ATPClose() { m_pSerialPort->close(); return 0; } int ZZ_ATPControl_Serial_Qt::GetDeviceInfo() { QByteArray qbSend, qbRecv; qbSend.append(GET_PN_NUMBER); SendCommand(qbSend); RecvData(qbRecv); ParseData(qbRecv); return 0; } int ZZ_ATPControl_Serial_Qt::GetDeviceAttribute() { QByteArray qbSend,qbRecv; qbSend.append(GET_WAVELENGTH_CALIBRATION_COEF); qbSend.resize(2); qbSend[0] = 0x00; qbSend[1] = 0x01; SendCommand(qbSend); RecvData(qbRecv); //ParseData(qbRecv); float a[4]; memcpy(a, (ZZ_U8*)(qbRecv[5]+16), 4 * 4); return 0; } int ZZ_ATPControl_Serial_Qt::SendCommand(QByteArray qbCommand) { int iSize = qbCommand.size() + 3; QByteArray qbSend; qbSend.resize(4); qbSend[0] = (ZZ_U8)0xAA; qbSend[1] = 0x55; qbSend[2] = iSize / 256; qbSend[3] = iSize % 256; qbSend.append(qbCommand); int iSum = 0; for (int i = 0; i < iSize - 1; i++) { iSum = iSum + qbSend[i + 2]; } qbSend.append(iSum % 256); qint64 qi64Write= m_pSerialPort->write(qbSend); if (qi64Write != qbSend.size()) { qDebug() << "Err:write Failed.Exit Code:1"; return 1; } return 0; } int ZZ_ATPControl_Serial_Qt::RecvData(QByteArray &qbData) { qbData.clear(); qbData = m_pSerialPort->readAll(); int iCounter = 0; while (qbData.size() < 4) { m_pSerialPort->waitForReadyRead(50); QByteArray qbTemp = m_pSerialPort->readAll(); qbData.append(qbTemp); if (iCounter > 10) { qDebug() << "Err:RecvData Failed,Not Enough Data.Exit Code:1"<waitForReadyRead(50); qbData.append(m_pSerialPort->readAll()); if (iCounter > 100) { qDebug() << "Err:RecvData Failed,Incomplete Data.Exit Code:3" << qbData.size(); return 3; } iCounter++; } if (qbData.size() > iLength) { qbData.remove(iLength - 1, qbData.size() - iLength); } int iCheckSumLength = iLength - 3; ZZ_U16 usCheckSum = 0; for (int i = 0; i < iCheckSumLength; i++) { usCheckSum += qbData[i+2]; } usCheckSum = usCheckSum % 256; ZZ_U8 ucTemp = qbData[qbData.size() - 1]; if ((ZZ_U8)usCheckSum != ucTemp) { qDebug() << "Err:RecvData Failed,Incorrect Check Sum.Exit Code:4" << qbData.size(); qbData.clear(); return 4; } return 0; } int ZZ_ATPControl_Serial_Qt::ParseData(QByteArray &qbData) { if (qbData.size() < 6) { qDebug() << "Err:ParseData Failed,Not Enough Data.Exit Code:1" << qbData.size(); return 1; } qbData.remove(0, 5); qbData.remove(qbData.size() - 1, 1); return 0; } //void ZZ_ATPControl_Serial_Qt::ReadMessage() //{ // QByteArray qbTemp, qbTemp1; // qbTemp = m_pSerialPort->readAll(); // while (qbTemp.size()<2) // { // m_pSerialPort->waitForReadyRead(50); // qbTemp1 = m_pSerialPort->readAll(); // qbTemp.append(qbTemp1); // } //return; // }