/********************************************************************************
* FaceTrackNoIR This program is a private project of some enthusiastic *
* gamers from Holland, who don't like to pay much for *
* head-tracking. *
* *
* Copyright (C) 2012 Wim Vriend (Developing) *
* Ron Hendriks (Researching and Testing) *
* Homepage: http://facetracknoir.sourceforge.net/home/default.htm *
* *
* Copyright (C) 2012 FuraX49 (HAT Tracker plugins) *
* Homepage: http://hatire.sourceforge.net *
* *
* *
* This program is free software; you can redistribute it and/or modify it *
* under the terms of the GNU General Public License as published by the *
* Free Software Foundation; either version 3 of the License, or (at your *
* option) any later version. *
* *
* This program is distributed in the hope that it will be useful, but *
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY *
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for *
* more details. *
* *
* You should have received a copy of the GNU General Public License along *
* with this program; if not, see . *
* *
********************************************************************************/
#include
#include "ftnoir_tracker_hat.h"
FTNoIR_Tracker::FTNoIR_Tracker()
{
qDebug()<<"Tracker::HAT";
ComPort = NULL;
HAT.Rot[0]=0;
HAT.Rot[1]=0;
HAT.Rot[2]=0;
HAT.Trans[0]=0;
HAT.Trans[1]=0;
HAT.Trans[2]=0;
// prepare & reserve QByteArray
dataRead.resize(4096);
dataRead.clear();
Begin.append((char) 0xAA);
Begin.append((char) 0xAA);
End.append((char) 0x55);
End.append((char) 0x55);
settings.load_ini();
}
FTNoIR_Tracker::~FTNoIR_Tracker()
{
qDebug()<<"Tracker::~HAT";
if (ComPort!=NULL) {
if (ComPort->isOpen() ) {
#ifdef OPENTRACK_API
QByteArray Msg;
ComPort->write(sCmdStop);
if (!ComPort->waitForBytesWritten(1000)) {
emit sendMsgInfo("TimeOut in writing CMD");
} else {
Msg.append("\r\n");
Msg.append("SEND '");
Msg.append(sCmdStop);
Msg.append("'\r\n");
}
emit sendMsgInfo(Msg);
#endif
ComPort->close();
disconnect(ComPort,SIGNAL(readyRead()),0,0);
}
delete ComPort;
ComPort=NULL;
}
}
//send ZERO to Arduino
bool FTNoIR_Tracker::notifyZeroed() {
qDebug() << " HAT send ZEROed ";
sendcmd(sCmdZero);
return true;
}
//send RESET to Arduino
void FTNoIR_Tracker::reset() {
qDebug() << " HAT send RESET ";
sendcmd(sCmdReset);
}
// Info SerialPort
void FTNoIR_Tracker::SerialInfo() {
QByteArray Msg;
if (ComPort!=NULL) {
if (ComPort->isOpen() ) {
Msg.append("\r\n");
Msg.append(ComPort->portName());
Msg.append("\r\n");
Msg.append("BAUDRATE :");
Msg.append(QString::number(ComPort->baudRate()));
Msg.append("\r\n");
Msg.append("DataBits :");
Msg.append(QString::number(ComPort->dataBits()));
Msg.append("\r\n");
Msg.append("Parity :");
switch (ComPort->parity()) {
case 0: Msg.append("No parity");
break;
case 2: Msg.append("Even parity");
break;
case 3: Msg.append("Odd parity");
break;
case 4: Msg.append("Space parity");
break;
case 5: Msg.append("Mark parity");
break;
default: Msg.append("Unknown parity");
break;
}
Msg.append("\r\n");
Msg.append("Stop Bits :");
switch (ComPort->stopBits()) {
Msg.append(QString::number(ComPort->stopBits()));
case 1: Msg.append("1 stop bit.");
break;
case 2: Msg.append("2 stop bits.");
break;
case 3: Msg.append("1.5 stop bits.");
break;
default: Msg.append("Unknown number of stop bit.");
break;
}
Msg.append("\r\n");
Msg.append("Flow Control :");
switch (ComPort->flowControl()) {
case 0: Msg.append("No flow control");
break;
case 1: Msg.append("Hardware flow control (RTS/CTS)");
break;
case 2: Msg.append("Software flow control (XON/XOFF)");
break;
default: Msg.append("Unknown flow control");
break;
}
emit sendMsgInfo(Msg);
}
}
}
//send command to Arduino
void FTNoIR_Tracker::sendcmd(const QByteArray &cmd) {
QByteArray Msg;
if (cmd.length()>0) {
if (ComPort->isOpen() )
{
ComPort->write(cmd);
if (!ComPort->waitForBytesWritten(1000)) {
emit sendMsgInfo("TimeOut in writing CMD");
} else {
Msg.append("\r\n");
Msg.append("SEND '");
Msg.append(cmd);
Msg.append("'\r\n");
}
if ( !ComPort->waitForReadyRead(1000)) {
emit sendMsgInfo("TimeOut in response to CMD") ;
} else {
emit sendMsgInfo(Msg);
}
} else {
emit sendMsgInfo("ComPort not open") ;
}
}
}
// return FPS
void FTNoIR_Tracker::get_info( int *tps ){
*tps=frame_cnt;
frame_cnt=0;
}
void FTNoIR_Tracker::SerialRead()
{
QMutexLocker lck(&mutex);
dataRead+=ComPort->readAll();
}
#ifndef OPENTRACK_API
void FTNoIR_Tracker::Initialize( QFrame *videoframe )
{
CptError=0;
dataRead.clear();
frame_cnt=0;
settings.load_ini();
applysettings(settings);
ComPort = new QSerialPort(this);
ComPort->setPortName(sSerialPortName);
if (ComPort->open(QIODevice::ReadWrite ) == true) {
connect(ComPort, SIGNAL(readyRead()), this, SLOT(SerialRead()));
if (
ComPort->setBaudRate((QSerialPort::BaudRate)iBaudRate)
&& ComPort->setDataBits((QSerialPort::DataBits)iDataBits)
&& ComPort->setParity((QSerialPort::Parity)iParity)
&& ComPort->setStopBits((QSerialPort::StopBits)iStopBits)
&& ComPort->setFlowControl((QSerialPort::FlowControl)iFlowControl)
&& ComPort->clear(QSerialPort::AllDirections)
&& ComPort->setDataErrorPolicy(QSerialPort::IgnorePolicy)
) {
// Wait init arduino sequence
for (int i = 1; i <=iDelayInit; i+=50) {
if (ComPort->waitForReadyRead(50)) break;
}
sendcmd(sCmdInit);
// Wait init MPU sequence
for (int i = 1; i <=iDelayStart; i+=50) {
if (ComPort->waitForReadyRead(50)) break;
}
} else {
QMessageBox::warning(0,"FaceTrackNoIR Error", ComPort->errorString(),QMessageBox::Ok,QMessageBox::NoButton);
}
}
else {
QMessageBox::warning(0,"FaceTrackNoIR Error", "Unable to open ComPort",QMessageBox::Ok,QMessageBox::NoButton);
delete ComPort;
ComPort = NULL;
}
return;
}
void FTNoIR_Tracker::StartTracker(HWND parent_window)
{
// Send START cmd to IMU
sendcmd(sCmdStart);
// Wait start MPU sequence
for (int i = 1; i <=iDelaySeq; i+=50) {
if (ComPort->waitForReadyRead(50)) break;
}
return;
}
void FTNoIR_Tracker::StopTracker( bool exit )
{
QByteArray Msg;
if (sCmdStop.length()>0) {
if (ComPort->isOpen() )
{
ComPort->write(sCmdStop);
if (!ComPort->waitForBytesWritten(1000)) {
emit sendMsgInfo("TimeOut in writing CMD");
} else {
Msg.append("\r\n");
Msg.append("SEND '");
Msg.append(sCmdStop);
Msg.append("'\r\n");
}
emit sendMsgInfo(Msg);
}
}
// OK, the thread is not stopped, doing this. That might be dangerous anyway...
//
if (exit || !exit) return;
return;
}
//send CENTER to Arduino
void FTNoIR_Tracker::notifyCenter() {
sendcmd(sCmdCenter);
}
#else
void FTNoIR_Tracker::start_tracker(QFrame*)
{
CptError=0;
dataRead.clear();
frame_cnt=0;
new_frame=false;
settings.load_ini();
applysettings(settings);
ComPort = new QSerialPort(this);
ComPort->setPortName(sSerialPortName);
if (ComPort->open(QIODevice::ReadWrite ) == true) {
connect(ComPort, SIGNAL(readyRead()), this, SLOT(SerialRead()));
if (
ComPort->setBaudRate((QSerialPort::BaudRate)iBaudRate)
&& ComPort->setDataBits((QSerialPort::DataBits)iDataBits)
&& ComPort->setParity((QSerialPort::Parity)iParity)
&& ComPort->setStopBits((QSerialPort::StopBits)iStopBits)
&& ComPort->setFlowControl((QSerialPort::FlowControl)iFlowControl)
&& ComPort->clear(QSerialPort::AllDirections)
&& ComPort->setDataErrorPolicy(QSerialPort::IgnorePolicy)
) {
qDebug() << QTime::currentTime() << " HAT OPEN on " << ComPort->portName() << ComPort->baudRate() << ComPort->dataBits() << ComPort->parity() << ComPort->stopBits() << ComPort->flowControl();
// Wait init arduino sequence
for (int i = 1; i <=iDelayInit; i+=50) {
if (ComPort->waitForReadyRead(50)) break;
}
qDebug() << QTime::currentTime() << " HAT send INIT ";
sendcmd(sCmdInit);
// Wait init MPU sequence
for (int i = 1; i <=iDelayStart; i+=50) {
if (ComPort->waitForReadyRead(50)) break;
}
// Send START cmd to IMU
qDebug() << QTime::currentTime() << " HAT send START ";
sendcmd(sCmdStart);
// Wait start MPU sequence
for (int i = 1; i <=iDelaySeq; i+=50) {
if (ComPort->waitForReadyRead(50)) break;
}
qDebug() << QTime::currentTime() << " HAT wait MPU ";
} else {
QMessageBox::warning(0,"FaceTrackNoIR Error", ComPort->errorString(),QMessageBox::Ok,QMessageBox::NoButton);
}
}
else {
QMessageBox::warning(0,"FaceTrackNoIR Error", "Unable to open ComPort: " + ComPort->errorString(), QMessageBox::Ok,QMessageBox::NoButton);
delete ComPort;
ComPort = NULL;
}
return;
}
//send CENTER to Arduino
void FTNoIR_Tracker::center() {
qDebug() << " HAT send CENTER ";
sendcmd(sCmdCenter);
}
//Return speed FPS sketch Arduino
int FTNoIR_Tracker::preferredHz() {
qDebug() << " HAT return Preferred FPS " << iFpsArduino;
return iFpsArduino;
}
#endif
//
// Return 6DOF info
//
#ifdef OPENTRACK_API
void FTNoIR_Tracker::data(double *data)
#else
bool FTNoIR_Tracker::GiveHeadPoseData(THeadPoseData *data)
#endif
{
QMutexLocker lck(&mutex);
while (dataRead.length()>=30) {
if ((dataRead.startsWith(Begin) && ( dataRead.mid(28,2)==End )) ) { // .Begin==0xAAAA .End==0x5555
QDataStream datastream(dataRead.left(30));
if (bBigEndian) datastream.setByteOrder(QDataStream::BigEndian );
else datastream.setByteOrder(QDataStream::LittleEndian );
datastream>>ArduinoData;
frame_cnt++;
if (ArduinoData.Code <= 1000) {
HAT=ArduinoData;
new_frame=true;
} else {
emit sendMsgInfo(dataRead.mid(4,24)) ;
}
dataRead.remove(0,30);
} else {
// resynchro trame
int index = dataRead.indexOf(Begin);
if (index==-1) {
index=dataRead.length();
}
emit sendMsgInfo(dataRead.mid(0,index)) ;
dataRead.remove(0,index);
CptError++;
}
}
if (CptError>50) {
emit sendMsgInfo("Can't find HAT frame") ;
CptError=0;
#ifndef OPENTRACK_API
return false;
#endif
}
if (new_frame) {
#ifdef OPENTRACK_API
if (bEnableYaw) {
if (bInvertYaw ) data[Yaw] = HAT.Rot[iYawAxe] * -1.0f;
else data[Yaw] = HAT.Rot[iYawAxe];
} else data[Yaw] =0;
if (bEnablePitch) {
if (bInvertPitch) data[Pitch] = HAT.Rot[iPitchAxe] * -1.0f;
else data[Pitch] = HAT.Rot[iPitchAxe];
} else data[Pitch] = 0;
if (bEnableRoll) {
if (bInvertRoll) data[Roll] = HAT.Rot[iRollAxe] * -1.0f;
else data[Roll] = HAT.Rot[iRollAxe];
} else data[Roll] =0;
if (bEnableX) {
if (bInvertX) data[TX] = HAT.Trans[iXAxe]* -1.0f;
else data[TX] = HAT.Trans[iXAxe];
} else data[TX] =0;
if (bEnableY) {
if (bInvertY) data[TY] = HAT.Trans[iYAxe]* -1.0f;
else data[TY] = HAT.Trans[iYAxe];
} else data[TY] =0;
if (bEnableZ) {
if (bInvertZ) data[TZ] = HAT.Trans[iZAxe]* -1.0f;
else data[TZ] = HAT.Trans[iZAxe];
} else data[TZ] =0;
#else
if (bEnableYaw) {
if (bInvertYaw ) data->yaw = (double) HAT.Rot[iYawAxe] * -1.0f;
else data->yaw = (double) HAT.Rot[iYawAxe];
}
if (bEnablePitch) {
if (bInvertPitch)data->pitch = (double) HAT.Rot[iPitchAxe] * -1.0f;
else data->pitch = (double) HAT.Rot[iPitchAxe];
}
if (bEnableRoll) {
if (bInvertRoll) data->roll = (double) HAT.Rot[iRollAxe] * -1.0f;
else data->roll = (double) HAT.Rot[iRollAxe];
}
if (bEnableX) {
if (bInvertX) data->x = (double) HAT.Trans[iXAxe]* -1.0f;
else data->x = (double) HAT.Trans[iXAxe];
}
if (bEnableY) {
if (bInvertY) data->y = (double) HAT.Trans[iYAxe]* -1.0f;
else data->y = (double) HAT.Trans[iYAxe];
}
if (bEnableZ) {
if (bInvertZ) data->z = (double) HAT.Trans[iZAxe]* -1.0f;
else data->z = (double) HAT.Trans[iZAxe];
}
return true;
#endif
new_frame=false;
// For debug
//data->x=dataRead.length();
//data->y=CptError;
}
}
//
// Apply modification Settings
//
void FTNoIR_Tracker::applysettings(const TrackerSettings& settings){
QMutexLocker lck(&mutex);
sSerialPortName= settings.SerialPortName;
bEnableRoll = settings.EnableRoll;
bEnablePitch = settings.EnablePitch;
bEnableYaw = settings.EnableYaw;
bEnableX = settings.EnableX;
bEnableY = settings.EnableY;
bEnableZ = settings.EnableZ;
bInvertRoll = settings.InvertRoll;
bInvertPitch = settings.InvertPitch;
bInvertYaw = settings.InvertYaw;
bInvertX = settings.InvertX;
bInvertY = settings.InvertY;
bInvertZ = settings.InvertZ;
iRollAxe= settings.RollAxe;
iPitchAxe= settings.PitchAxe;
iYawAxe= settings.YawAxe;
iXAxe= settings.XAxe;
iYAxe= settings.YAxe;
iZAxe= settings.ZAxe;
iBaudRate=settings.pBaudRate;
iDataBits=settings.pDataBits;
iParity=settings.pParity;
iStopBits=settings.pStopBits;
iFlowControl=settings.pFlowControl;
sCmdStart= settings.CmdStart.toLatin1();
sCmdStop= settings.CmdStop.toLatin1();
sCmdInit= settings.CmdInit.toLatin1();
sCmdReset= settings.CmdReset.toLatin1();
sCmdCenter= settings.CmdCenter.toLatin1();
sCmdZero= settings.CmdZero.toLatin1();
iDelayInit=settings.DelayInit;
iDelayStart=settings.DelayStart;
iDelaySeq=settings.DelaySeq;
bBigEndian=settings.BigEndian;
#ifdef OPENTRACK_API
iFpsArduino=settings.FPSArduino;
#endif
}
////////////////////////////////////////////////////////////////////////////////
// Factory function that creates instances if the Tracker object.
// Export both decorated and undecorated names.
// GetTracker - Undecorated name, which can be easily used with GetProcAddress
// Win32 API function.
// _GetTracker@0 - Common name decoration for __stdcall functions in C language.
////////////////////////////////////////////////////////////////////////////////
#ifdef OPENTRACK_API
extern "C" OPENTRACK_EXPORT ITracker* GetConstructor()
#else
#pragma comment(linker, "/export:GetTracker=_GetTracker@0")
FTNOIR_TRACKER_BASE_EXPORT ITrackerPtr __stdcall GetTracker()
#endif
{
return new FTNoIR_Tracker;
}