Ejemplo n.º 1
0
EngineClient::EngineClient(	ds::App& app, const ds::cfg::Settings& settings,
							ds::EngineData& ed, const ds::RootList& roots)
		: inherited(app, settings, ed, roots)
		, mLoadImageService(*this, mIpFunctions)
		, mRenderTextService(mRenderTextThread)
		, mSender(mSendConnection)
		, mReceiver(mReceiveConnection)
		, mBlobReader(mReceiver.getData(), *this)
		, mSessionId(0)
		, mConnectionRenewed(false)
		, mServerFrame(-1)
		, mState(nullptr)
		, mIoInfo(*this)
{

	// NOTE:  Must be EXACTLY the same items as in EngineServer, in same order,
	// so that the BLOB ids match.
	HEADER_BLOB = mBlobRegistry.add([this](BlobReader& r) {receiveHeader(r.mDataBuffer);});
	COMMAND_BLOB = mBlobRegistry.add([this](BlobReader& r) {receiveCommand(r.mDataBuffer);});
	DELETE_SPRITE_BLOB = mBlobRegistry.add([this](BlobReader& r) {receiveDeleteSprite(r.mDataBuffer);});
	CLIENT_STATUS_BLOB = mBlobRegistry.add([this](BlobReader& r) {receiveClientStatus(r.mDataBuffer); });
	CLIENT_INPUT_BLOB = mBlobRegistry.add([this](BlobReader& r) {receiveClientInput(r.mDataBuffer); });
	mReceiver.setHeaderAndCommandIds(HEADER_BLOB, COMMAND_BLOB);
	
	try {
		if (settings.getBool("server:connect", 0, true)) {
			mSendConnection.initialize(true, settings.getText("server:ip"), ds::value_to_string(settings.getInt("server:listen_port")));
			mReceiveConnection.initialize(false, settings.getText("server:ip"), ds::value_to_string(settings.getInt("server:send_port")));
		}
	} catch(std::exception &e) {
		DS_LOG_ERROR_M("EngineClient::EngineClient() initializing UDP: " << e.what(), ds::ENGINE_LOG);
	}

	setState(mClientStartedState);
}
Ejemplo n.º 2
0
Connection::Connection(QTcpSocket *socket)
        : QObject()
        , m_connection(socket)
        , m_command(0)
{
    connect(m_connection, SIGNAL(readyRead()), this, SLOT(receiveCommand()));
    connect(m_connection, SIGNAL(disconnected()), this, SLOT(closedConnection()));
}
Ejemplo n.º 3
0
void NMEAServer::deliver(Command_ptr command){
    if((*command).getReceiver()=="server"){
        receiveCommand(command);
    }
    else{
        receive(command);
    }
}
Ejemplo n.º 4
0
STATUS fineTuneX(int argc)
{
     do
     {
           IplImage* frame = 0;
           // Load image from IP camera
           if(argc == 1)
           		getimage();
           frame = cvLoadImage("image.jpg");
           if(!frame)
           {
                printf("\n No input frame found !!!");
             	break;
           }

            // Step #1: Cutter detection and processing
            // Detect cutter
            if (cutterProcessing(frame) != STATUS_OK)
                break;

            // Step #2: Fruit detection and processing
            fruitProcessing(frame);
            
            // Step #3: Find nearby fruits
            findNearbyFruits();

            if(count == 0) {
                break;
            }
            
           printf("\nFine tunnig along X axis....");
           printf("\n fruitX=%d cutterX=%d",fruitX,cutterX);
           if(fruitX - cutterX > 10){
               sendCommand(COMMAND_RIGHT,1,0);
               receiveCommand(&cmd,NULL,NULL);
               if(cmd ==  COMMAND_FAIL)
                   printf("\Error right send command");
           }
           else if(cutterX - fruitX > 10){
               sendCommand(COMMAND_LEFT,1,0);
               receiveCommand(&cmd,NULL,NULL);
               if(cmd ==  COMMAND_FAIL)
                   printf("\Error right send command"); 
           }
Ejemplo n.º 5
0
Pager::Pager(KWMModuleApplication *a, char *name) : QWidget(NULL,  "kwmpager")
{
    kwmmapp = a;
    a->setMainWidget(this);
    kwmmapp -> connectToKWM();
    KWM::setSticky(winId(), true);
    KWM::setDecoration(winId(), KWM::tinyDecoration | KWM::noFocus);
    KWM::setWmCommand(winId(), name);
    KWM::setUnsavedDataHint(winId(), false);

    int count = KWM::numberOfDesktops();
    desktop_font = new QFont();
    Desktop *desk;

    desktops.resize(count);
    for (int i = 0; i < count; i++) {
        desk = new Desktop(a, i + 1, this);
        desktops[i] = desk;
    }
    
    activeDesktop = desktops.at(KWM::currentDesktop() - 1);
    activeDesktop->activate(true);
    
    connect(kwmmapp, SIGNAL(desktopChange(int)) , 
	    SLOT(changeDesktop(int)));
    connect(kwmmapp, SIGNAL(init()), 
	    SLOT(initDesktops()));
    connect(kwmmapp, SIGNAL( desktopNumberChange(int)), 
	    SLOT(changeNumber(int)));
    connect(kwmmapp, SIGNAL( windowAdd(Window)), 
	    SLOT(addWindow(Window)));
    connect(kwmmapp, SIGNAL( windowRemove(Window)), 
	    SLOT(removeWindow(Window)));
    connect(kwmmapp, SIGNAL( windowChange(Window)), 
	    SLOT(windowChange(Window)));
    connect(kwmmapp, SIGNAL( windowRaise(Window)), 
	    SLOT(raiseWindow(Window)));
    connect(kwmmapp, SIGNAL( windowLower(Window)), 
	    SLOT(lowerWindow(Window)));
    connect(kwmmapp, SIGNAL( windowActivate(Window)), 
	    SLOT(windowActivate(Window)));
    connect(kwmmapp, SIGNAL( commandReceived(QString)),
	    SLOT(receiveCommand(QString)));

    moved = false;
    readSettings();
    initDesktops();
    show();
    placeIt();
}
Ejemplo n.º 6
0
void listenToCommands() {
	initCOMPort();
	initUSBRadio();
	lastSpeedSentTimer.start();
	HANDLE waitHandles[3] = { startSignal, osStatusDongle.hEvent };

	stateGoal = goalOnRight;
	stateBallSeen = ballOnRight;
	while (true) {
		float floorX, floorY;
		int currentx, currenty;
		findNearestFloorBall(floorX, floorY, currentx, currenty);
		float angle = atanf(floorY / floorX) * 180.0 / PI;

		swprintf_s(buffer, L"NX %.2f \n NY %.2f\n ang %.2f", floorX, floorY, angle);
		SetWindowText(infoGUI, buffer);

		swprintf_s(buffer, L"greencount %d", fieldGreenPixelCountShare);
		SetWindowText(infoGUI3, buffer);

		if (hCOMDongle != INVALID_HANDLE_VALUE) {
			if (lastSpeedSentTimer.time() > 0.5) { //if we send the speeds too often we get communication timeouts
				setSpeedBoth(currentDrivingState);
				lastSpeedSentTimer.start();
			}
		}
		switch (WaitForMultipleObjects(2, waitHandles, FALSE, 50)) {
		//case WAIT_OBJECT_0:
		//	prints(L"radio event %X\n", dwCommEvent);
		//	//receiveCommand();
		//	//WaitCommEvent(hCOMRadio, &dwCommEvent, &osStatus);
		//	break;
		case WAIT_OBJECT_0:
			prints(L"Start signal arrived.\n");
			SetWindowText(stateStatusGUI, L"started");
			dribblerON();
			play();
			dribblerOFF();
			//discharge();
			break;
		case WAIT_OBJECT_0 + 1: //info from the main board controller
			//prints(L"main board COM event %X\n", dwCommEventDongle);
			handleMainBoardCommunication();
			WaitCommEvent(hCOMDongle, &dwCommEventDongle, &osStatusDongle); //listen to new events, ie beginning character
			break;
		}
		receiveCommand();
	}
}
Ejemplo n.º 7
0
void Connection::receiveCommand()
{
    QByteArray arr = m_connection->readAll();
    debugOutput(1, QString::fromLatin1("Command received: ") + (arr));
    QList<CommandInfo> commands = availableCommands();
    for(QList<CommandInfo>::iterator it = commands.begin(); it != commands.end(); ++it) {
        if (it->commandName == QString::fromLatin1(arr)) {
            debugOutput(1, "Found command in list");
            disconnect(m_connection, SIGNAL(readyRead()), this, SLOT(receiveCommand()));
            AbstractCommand* command = (*it).commandFunc();
            command->setSocket(m_connection);
            m_command = command;
            return;
        }
    }
    debugOutput(2, QString::fromLatin1("Unknown command received: ") + (arr));
}
Ejemplo n.º 8
0
int llclose(int fd){
	alarm(0);
	if(!sendByte(fd, A_SEND, C_DISC))
		return -1;
//puts("sent disc");
	Command command = receiveCommand(fd);
	//puts("eu recebi um comandito\n");
	if(command.command != DISC){
		//puts("didnt receive a disc");
		return -1;
	}
	//puts("received a disc");
	if(!sendByte(fd, A_RECEIVE, C_UA))
		return -1;
	//puts("confirmed");
	return 1;
}
Ejemplo n.º 9
0
void GUIServer::run() {
	if (receiveCommand()) {
		m_UdpServer.beginPacket(m_UdpServer.remoteIP(),
				m_UdpServer.remotePort());
		m_UdpServer.write(m_Buffer[1]);
		m_UdpServer.write(m_Buffer[0]);

		Serial.print(F("Request ID: "));
		Serial.println(m_Buffer[0]);
		Serial.print(F("Method ID: "));
		Serial.println(m_Buffer[1]);
		Serial.print(F("value: "));
		Serial.println(m_Buffer[2]);
		switch (m_Buffer[1]) {
		case GETVERSION:
			m_UdpServer.write((uint8_t) 0);
			m_UdpServer.write(1);
			break;
		case GETALLSENSORS:
			getAllSensors();
			break;
		case GETSENSORDATA:
			getSensorData(m_Buffer[2]);
			break;
		case SETSENSORCONFIG:
			switch (m_Buffer[3]) {
			case 1:
				break;
			case 2:
				setSensorConfig(m_Buffer[2], m_Buffer[3], (char*) &m_Buffer[4]);
				break;
			case 3:
				setSensorConfig(m_Buffer[2], m_Buffer[3], (char*) &m_Buffer[4]);
				break;
			case 4:
				setSensorConfig(m_Buffer[2], m_Buffer[3],
						(uint8_t) m_Buffer[4]);
				break;
			case 5:
				setSensorConfig(m_Buffer[2], m_Buffer[3],
						(uint8_t) m_Buffer[4]);
				break;
			}
			break;
		case GETALLACTUATORS:
			getAllActuators();
			break;
		case GETACTUATORDATA:
			getActuatorData(m_Buffer[2]);
			break;
		case SETACTUATORDATA:
			switch (m_Buffer[3]) {
			case 1:
			case 3:
			case 4:
			case 5:
			case 6:
				setActuatorData(m_Buffer[2], m_Buffer[3],
						(uint8_t) m_Buffer[4]);
				break;
			case 2:
				setActuatorData(m_Buffer[2], m_Buffer[3], (char*) m_Buffer[4]);
			}
			break;
		case SETACTUATORCONFIG:
			switch (m_Buffer[3]) {
			case 1:
				break;
			case 2:
				setActuatorConfig(m_Buffer[2], m_Buffer[3],
						(char*) &m_Buffer[4]);
				break;
			case 3:
				break;
			case 4:
				break;
			case 5:
				break;
			}
			break;
		case GETCLOCKTIMERS:
			getClockTimers(m_Buffer[2]);
			break;
		default:
			break;
		}
		m_UdpServer.endPacket();
	}

}
Ejemplo n.º 10
0
int llwrite(int fd, unsigned char* buffer, int length){

//printf("entrei no llwrite\n");
	char *bufferStuffed;
	char header[] = { FLAG, 0x03, I(ll.sequenceNumber), header[1]^header[2] };
	char dataBCC = generateBCC((char*)buffer, length);
	char* toStuff = malloc(length+1);
	memcpy(toStuff, buffer, length);
	toStuff[length] = dataBCC;


	int n= byteStuffing(toStuff,  length+1, &bufferStuffed);

	//int k;
	//puts("");
	//for (k=0;k<n;k++){
		//printf("\n%d\n", bufferStuffed[k]);
	//}
	//	puts("");
	char* message = (char*)  malloc(n+6);

	memcpy(message, header, 4);
	memcpy(message+4, bufferStuffed, n);
	message[n+4] = FLAG;
	int wrote = 0;
	while(!wrote)
		wrote = write(fd, message, n+5);
	stats.dataFramesTransmitted++;



//puts("message sent\n");

	free(message);
	free(bufferStuffed);
	alarm(ll.timeOut);
	
	Command command = receiveCommand(fd);
	
	//was asked for new frame
	if (command.command == RR(!ll.sequenceNumber)){
		ll.sequenceNumber = (!ll.sequenceNumber);
		retries = 0;
	//puts("fui confirmado");
		alarm(0);
		return length;
	}
	//frame was rejected, resend
	if (command.command == REJ(ll.sequenceNumber) || (command.command == NONE && ll.numTransmissions > retries)){
		if (command.command == NONE){
			
			stats.timeouts++;
			//printf("\nNumber of retries: %d\n", retries);
			alarm(0);
		}
		//puts("byte was rejected,resending or no response\n");
		stats.rejs++;
		return llwrite(fd, buffer, length);
	}
	else{
		//puts("eu esperei mas o reader nao me quis responder :(");
		return -1;
	}

	return length;
}
Ejemplo n.º 11
0
int llopen(const char* port, int mode){
	srand(time(NULL));
	stats.dataFramesTransmitted = 0;
	stats.timeouts=0;
	stats.rejs=0;
	installAlarm();
	int fd;

	char fileName[15];
	fd = open(port, O_RDWR|O_NOCTTY);
	if(fd <0){
		perror(fileName);
		exit(-1);
	}


	struct termios oldTio, newTio;

	if(tcgetattr(fd, &oldTio) == -1){
		perror("tcgetattr error");
		exit(-1);
	}
	ll.oldtio = oldTio;

	memset(&newTio, 0, sizeof(newTio)); //possible error here. if error use bzero instead
	newTio.c_cflag = ll.baudRate | CS8 | CLOCAL | CREAD;
	newTio.c_iflag = IGNPAR;
	newTio.c_oflag = 0;

	/* set input mode (non-canonical, no echo,...) */


	if(mode == RECEIVE){
		newTio.c_lflag = 0;

		newTio.c_cc[VTIME]    = 0;   /* inter-character timer unused */
		newTio.c_cc[VMIN]     = 1;   /* blocking read until 5 chars received */

		tcflush(fd, TCIOFLUSH);

		if ( tcsetattr(fd,TCSANOW,&newTio) == -1) {
			perror("tcsetattr");
			exit(-1);
		}

		//printf("Ready to read\n");

	  Command command = receiveCommand(fd);
		if(command.command == SET){
			//puts("llopen_receive: received SET message\n");
			while(!sendByte(fd, UA, 0x03)){}
			return fd;
		}
		return E_GENERIC;
	}
	else if(mode == SEND){
		newTio.c_lflag = 0;

		newTio.c_cc[VTIME]    = 10;   /* inter-character timer unused */
		newTio.c_cc[VMIN]     = 0;   /* blocking read until 5 chars received */

		tcflush(fd, TCIOFLUSH);

		if ( tcsetattr(fd,TCSANOW,&newTio) == -1) {
			perror("tcsetattr");
			exit(-1);
		}

send: ;
	resend = 0;
	unsigned char SET[5] = {FLAG, A_SEND, C_SET, SET[1]^SET[2], FLAG};
	if(write(fd, SET, 5) != 5)
	      return -1;
	//printf("escrevi\n");
	alarm(ll.timeOut);

 	Command command = receiveCommand(fd);

	//printf("0x%02x command\n", command.command);

	if(command.command == NONE){

		
		if (ll.numTransmissions < retries){
			puts("llopen_writer timeouts exceeded");
			return -1;
		}
		else{
			//puts("llopen_writer timeout");
			goto send;
		}
	}
	if (command.command == UA){
		alarm(0);
		return fd;
	}
	return -1;
	}
	return 0;
}
Ejemplo n.º 12
0
int llread(int fd, unsigned char **buffer){
	//printf("preparing to read frame\n");
	Command command = receiveCommand(fd);
	//puts("llread:received command");
	int repeated;
	if (command.command == I(ll.sequenceNumber))
		repeated = 0;
	else if (command.command == I(!ll.sequenceNumber))
		repeated = 1;
	else if (command.command == DISC){
			//printf("llread: disconnecting\n");
			while(!sendByte(fd, 0x01, DISC)){}
			//puts("llread: disc confirmation sent\n");
			command = receiveCommand(fd);
			if (command.command != UA){
				//puts("llread: didnt receive UA after disc confirmation\n");
				return E_GENERIC;
			}
			else{
				//puts("llread: connection successfully closed\n");
				return E_CLOSED;
			}
	}

	if (command.command == I(0) || command.command == I(1)){
		//puts("llread: received a data frame\n");
		//if we never saw this frame before, consider it
		stats.dataFramesTransmitted++;
		if(!repeated){
			//puts("llread: new data frame\n");
			int length = byteDeStuffing(&(command.data), command.size);
			//puts("llread: destuffing succeeded\n");
			int bccOK = verifyBCC(command.data, length, command.data[length-1]);

			if(getRand() < RANDOM_REJ_CHANCE){
				bccOK = 0;
			//	puts("\n randomly rejecting good packet");
			}

			//Reject frames with wrong BCC
			if(!bccOK){
				//puts("llread: frame was damaged, rejecting and rereading\n");
				stats.rejs++;
				while(!sendByte(fd, 0x03, REJ(ll.sequenceNumber) )){}
					return llread(fd, buffer);

			}

			//accept the frame and confirm it
			//puts("llread: frame bcc ok, accepting\n");
			*buffer = (unsigned char*) malloc(length);
			memcpy(*buffer, command.data, length);
			while(!sendByte(fd,0x03, RR(!ll.sequenceNumber))){}
			//puts("llread: receiver ready sent, message confirmed\n");
			ll.sequenceNumber = !ll.sequenceNumber;
			free(command.data);
			//printf("%d length\n", length);
			return length;

		}
		//this frame is repeated. Confirm it and ask for the new frame
		else{
				//puts("llread: message repeated");
				while(!sendByte(fd, 0x03, RR(ll.sequenceNumber))){}
				return E_GENERIC;
		}

	}

	else{
		//printf("received unexpected command 0x%02x\n",command.command);
		return E_GENERIC;
	}

	return 0;


}
Ejemplo n.º 13
0
void play() {
	HANDLE waitHandles[5] = { stopSignal, osStatusDongle.hEvent, calibratingSignal, newImageAnalyzed };
	int currentx = 320, currenty = 0, FPS2Count = 0;
	int timeOut = 30;
	float movingTime; //timeout after sending each command
	objectCollection goals, goals2;
	float nearestBallFloorX = 0, nearestBallFloorY = 0, initialBallDistance = 0;
	ignoreX = 0, ignoreY = 0;
	Timer ignoreTimer, ballSearchRotationSpeedTimer, chargingTimer, wanderingTimer, frameTimer;
	float lastBallFoundTime = 0, lastGoalFoundTime = 0, wanderingTime = 0; 
	bool rotateFast = true;
	FPS2Timer.start();
	FPS2Count = 0;
	frameTimer.start();

	bool turnFast = true;
	state = lookForBall;
	SetWindowText(goalGuessState, L"Goal on right");
	isBallInDribbler = false;
	prints(L"Started, driving to ball\n");
	SetWindowText(stateStatusGUI, L"Driving to ball");
	charged = false, ignoreBall = false;
	charge();
	chargingTimer.start();
	sendString(hCOMDongle, "9:bl\n");
	lastBallFoundTimer.start();
	lastGoalFoundTimer.start();
	movingTimer.start();

	while (true) {

		//display test stuff
		float floorX, floorY;
		int currentx, currenty;
		findNearestFloorBall(floorX, floorY, currentx, currenty);
		float angle = atanf(floorY / floorX) * 180.0 / PI;

		swprintf_s(buffer, L"NX %.2f \n NY %.2f\n ang %.2f", floorX, floorY, angle);
		SetWindowText(infoGUI, buffer);
		//end display test stuff

		switch (WaitForMultipleObjects(4, waitHandles, FALSE, timeOut)) {
		//case WAIT_OBJECT_0: //start of a new command from the radio detected
		//						//ResetEvent(osStatus.hEvent);
		//	prints(L"radio event %X\n", dwCommEvent);
		//	//receiveCommand(); //receive and interpret the command
		//	//WaitCommEvent(hCOMRadio, &dwCommEvent, &osStatus); //listen to new events, ie beginning character
		//	continue;
		case WAIT_OBJECT_0: //stop signal
			prints(L"Stop signal arrived.\n");
			SetWindowText(stateStatusGUI, L"stopped");
			currentDrivingState.angle = 0, currentDrivingState.speed = 0, currentDrivingState.vx = 0,
				currentDrivingState.vy = 0, currentDrivingState.angularVelocity = 0;
			setSpeedAngle(currentDrivingState);
			ResetEvent(startSignal);
			return;
		case WAIT_OBJECT_0 + 1: //info from the main board controller
								//prints(L"main board COM event %X\n", dwCommEvent);
			handleMainBoardCommunication();
			WaitCommEvent(hCOMDongle, &dwCommEventDongle, &osStatusDongle); //listen to new events, ie beginning character
			continue;
		case WAIT_OBJECT_0 + 2: //calibrating signal
			SetWindowText(stateStatusGUI, L"calibrating");
			rotateAroundCenter(0);
			//WaitForSingleObject(calibratingEndSignal, INFINITE);
			continue;
		case WAIT_OBJECT_0 + 3: //new image analyzed
			//update FPS rate after every 5 images
			++FPS2Count;
			if (FPS2Count % 5 == 0) {
				float FPS = 5.0 / FPS2Timer.time();
				swprintf_s(buffer, L"FPS2: %.2f", FPS);
				SetWindowText(statusFPS2, buffer);
				FPS2Timer.start();
			}
			if (FPS2Count % 10 == 0) {
				receiveCommand();
			}
			break;
		default:
			continue;
		}

		if (attackBlue) { //set the side
			goals = goalsBlueShare;
			goals2 = goalsYellowShare;
		}
		else {
			goals = goalsYellowShare;
			goals2 = goalsBlueShare;
		}

		if (ignoreBall) { //ignore the ball just kicked for 1s
			if (ignoreTimer.time() > 1.0) {
				ignoreBall = false;
				ignoreX = 0, ignoreY = 0;
			}
			else {
				float ignoreXNew = ignoreX, ignoreYNew = ignoreY;
				findNearestFloorObjectToOldObject(ignoreXNew, ignoreYNew, ballsShare);
				//if we cant see the ball behind the dribbler, don't start ignoring a ball too far away
				ignoreX = ignoreXNew;
				ignoreY = ignoreYNew;

				swprintf_s(buffer, L"IgX %.2f IgY %.2f\n NX %.2f NY %.2f", ignoreX, ignoreY, ignoreXNew, ignoreYNew);
				SetWindowText(infoGUI2, buffer);
			}
		}
		else {
			SetWindowText(infoGUI2, L"Ignore OFF");
		}

		//keep track of the likely direction to turn to to find the goal
		if ((goalsBlueShare.count > 0 || goalsYellowShare.count > 0) && !(goalsBlueShare.count == 1 && goalsYellowShare.count == 1)) {
			int goalX, goalY;
			State stateGoalNew;
			if (goals.count > 0) {
				findLargestObject(goalX, goalY, goals);
				stateGoalNew = goalX > 320 ? goalOnRight : goalOnLeft;
			}
			else if (goals2.count > 0) {
				findLargestObject(goalX, goalY, goals2);
				stateGoalNew = goalX > 320 ? goalOnLeft : goalOnRight;
			}
			if (stateGoalNew != stateGoal && state != lookForGoal) {
				stateGoal = stateGoalNew;
				if (stateGoal == goalOnRight) {
					SetWindowText(goalGuessState, L"Goal on the right");
				}
				else {
					SetWindowText(goalGuessState, L"Goal on the left");
				}
			}
		}

		if (ballsOnFieldInSight() > 0) { //keep track of the likely direction to turn to to find the ball
			for (int i = 0; i < ballsShare.count; ++i) {
				if (!ballsShare.data[i].isObjectAcrossLine) {
					if (ballsShare.data[i].x > 320) {
						stateBallSeen = ballOnRight;
					}
					else {
						stateBallSeen = ballOnLeft;
					}
				}
			}
		}
		float frameTime = frameTimer.time();
		frameTimer.start();

		if (ballsOnFieldInSight() == 0 && state == lookForBall && !isBallInDribbler) {
			lastBallFoundTime += frameTime;
		}
		else if (ballsOnFieldInSight > 0) {
			lastBallFoundTime = 0;
		}
		if (goals.count == 0 && state == lookForGoal) {
			lastGoalFoundTime += frameTime;
		}
		else if (goals.count > 0) {
			lastGoalFoundTime = 0;
		}
		if (lastBallFoundTime > 3.0 || lastGoalFoundTime > 3.0) {
			prints(L"Wandering for ball\n");
			state = wanderForBall;
			movingTimer.start();
			wanderingTimer.start();
			wanderingTime = 0;
			lastBallFoundTime = 0;
			lastGoalFoundTime = 0;
		}

		if (fieldGreenPixelCountShare < FIELDGREENCOUNTTHRESHOLD && state != rotate90 && state != wanderForBall) {
			state = rotate90;
			movingTimer.start();
		}

		if (state == lookForBall) {
			if (isBallInDribbler) {
				prints(L"Looking for goal\n");
				state = lookForGoal;
				movingTimer.start();
			}
			else {
				//prints(L"Looking for ball\n");
				SetWindowText(stateStatusGUI, L"Looking for ball");
				nearestBallFloorX = 0;
				int sign = stateBallSeen == ballOnRight ? -1 : 1;
				if (ballsOnFieldInSight() == 0) {
					if (fmodf(movingTimer.time(), 0.3) < 0.2) {
						rotateAroundCenter(sign * 200);
					}
					else {
						rotateAroundCenter(sign * 40);
					}
				}
				else {
					findNearestFloorBall(nearestBallFloorX, nearestBallFloorY, currentx, currenty);
					initialBallDistance = pow(nearestBallFloorX*nearestBallFloorX + nearestBallFloorY*nearestBallFloorY, 0.5);
					//prints(L"found nearest ball X: %.2f, Y: %.2f, currentx: %d, currenty: %d\n", nearestBallFloorX, nearestBallFloorY, currentx, currenty);
					prints(L"Driving to ball\n");
					state = driveToBall;
					rotateAroundCenter(0);
					movingTimer.start();
				}
			}
		}
		if (state == driveToBall) {
			if (isBallInDribbler) {
				rotateAroundCenter(0);
				Sleep(0);
				prints(L"Looking for goal\n");
				state = lookForGoal;
				movingTimer.start();
			}
			else {
				//prints(L"Driving to ball\n");
				SetWindowText(stateStatusGUI, L"driving to ball");
				float floorX, floorY;
				//findNearestObject(currentx, currenty, ballsShare);
				//prints(L"Floor coordinates x: %.2f, y: %.2f, currentx: %d, currenty: %d\n", floorX, floorY, currentx, currenty);
				if (findNearestFloorBall(floorX, floorY, currentx, currenty) == 0) {
					//prints(L"Drive state, but ballcount zero, starting to look for ball.\n");
					state = lookForBall;
					movingTimer.start();
					prints(L"Looking for ball\n");
					continue;
				}
				driveToFloorXYPID(floorX, floorY, initialBallDistance);
			}
		}
		if (state == lookForGoal) {
			//prints(L"Looking for goal\n");
			SetWindowText(stateStatusGUI, L"Looking for goal\n");
			if (isBallInDribbler) {
				int x = 0, y = 0;
				float floorX, floorY;
				findLargestObject(x, y, goals);
				convertToFloorCoordinates(x, y, floorX, floorY, GOALMIDHEIGHT);
				//prints(L"Goal x: %d\n", x);
				if (!(goalsBlueShare.count == 1 && goalsYellowShare.count == 1) &&
					(y > 0 && floorX > 0 && fabs(floorY) < 18.0 / 100.0 || abs(x-320) <= 35)) {
					state = kickBall;
					rotateAroundFront(0);
					prints(L"Kicking\n");
				}
				else {
					int sign;
					if (stateGoal == goalOnRight) {
						sign = -1;
					}
					else {
						sign = 1;
					}
					if (goals.count == 0) { //no goals in sight, turn faster
						rotateAroundFront(sign * 200);
					}
					else{
						//around 120 degs/s is max speed so that the goal doesn't go out, less than 30 degs/s is pointless
						float angle = atanf(tanf(angleOfView)*(x - 320.0) / 320.0); //roughly, in degrees
						float speedMultiplier = 1 - expf(-fabs(pow((x - 320.0) / 320.0, 4)));
						speedMultiplier = speedMultiplier > 1 ? 1 : speedMultiplier;
						float turningSpeed = 50 + (160 - 50)*speedMultiplier;

						rotateAroundFront(sign * turningSpeed);
					}
				}
			}
			else {
				state = lookForBall;
				movingTimer.start();
				prints(L"Looking for ball\n");
			}
		}
		if (state == kickBall) {
			SetWindowText(stateStatusGUI, L"Kicking");
			if (!isBallInDribbler) {
				state = lookForBall;
				movingTimer.start();
			}
			if (!charged) {//not charged, wait more
				if (chargingTimer.time() > 3.5) { //by this time we definitely should have gotten a charge command, charge again
					prints(L"No charge info received in time\n");
					chargingTimer.start();
					charge();
				}
				continue;
			}
			kick();
			Sleep(20);
			charged = false;

			//isBallInDribbler = false;
			//sendString(hCOMDongle, "9:bl\n");

			ignoreBall = true;
			ignoreX = 25.0 / 100.0, ignoreY = 0;
			ignoreTimer.start();

			state = lookForBall;
			movingTimer.start();
			prints(L"Looking for ball\n");

			//Sleep(80);
			charge();
			chargingTimer.start();
		}

		if (state == rotate90) {
			SetWindowText(stateStatusGUI, L"Rotating 90");
			if (movingTimer.time() < 0.5) {
				rotateAroundCenter(180);
				continue;
			}
			else {
				prints(L"Looking for ball\n");
				stateBallSeen = ballOnLeft;
				stateGoal = goalOnLeft;
				state = lookForBall;
				movingTimer.start();
			}
		}

		//wander around, try to drive towards a goal far enough away, if can't find one, drive to a direction where there are no goals, lines and there is enough green
		if (state == wanderForBall) {
			wanderingTime += frameTime;
			SetWindowText(stateStatusGUI, L"Wandering");
			if (wanderingTime > 4.0) { //if we didn't find a far away goal in 4 seconds
				int goalBlueX, goalBlueY;
				int goalYellowX, goalYellowY;
				findLargestObject(goalBlueX, goalBlueY, goalsBlueShare);
				findLargestObject(goalYellowX, goalYellowY, goalsYellowShare);
				if (goalsBlueShare.count != 0 && goalBlueX >= 150 && goalBlueX <= 500 
					|| goalsYellowShare.count != 0 && goalYellowX >= 150 && goalYellowX <= 500 || isLineStraightAhead || fieldGreenPixelCountShare < FIELDGREENCOUNTTHRESHOLD) {
					rotateAroundCenter(100);
					wanderingTimer.start();
				}
				else {
					if (wanderingTimer.time() > 1.0) {
						movingTimer.start();
						state = lookForBall;
						prints(L"Looking for ball\n");
						continue;
					}
					driveForward(0.5);
				}
			}
			else {
				if (goalsBlueShare.count == 0 && goalsYellowShare.count == 0 || isLineStraightAhead || fieldGreenPixelCountShare < FIELDGREENCOUNTTHRESHOLD) {
					rotateAroundCenter(120);
					wanderingTimer.start();
				}
				else {
					if (wanderingTimer.time() > 1.0) {
						movingTimer.start();
						state = lookForBall;
						prints(L"Looking for ball\n");
						continue;
					}
					int goalX = 0, goalY = 0;
					findLargestObject(goalX, goalY, goalsBlueShare);
					if (goalY > 450) {
						driveForward(0.5);
						continue;
					}
					else {
						goalX = 0, goalY = 0;
						findLargestObject(goalX, goalY, goalsYellowShare);
						if (goalY > 450) {
							driveForward(0.5);
						}
						else {
							rotateAroundCenter(100);
							wanderingTimer.start();
						}
					}
				}
			}
		}

	}
}
Ejemplo n.º 14
0
void NMEAServer::run(){
    shouldRun=true;
    while(shouldRun){
        std::list<Message_ptr> msgs_cpy;
        {
            boost::mutex::scoped_lock lock(msgsMutex);
            if(msgs.empty()){
                msgsCond.wait(lock);
            }
            msgs_cpy = std::list<Message_ptr>(msgs);
        }
        while(!msgs_cpy.empty()){
            std::list<Endpoint_ptr> online_cpy;
            {
                boost::mutex::scoped_lock lock(onlineMutex);
                online_cpy = std::list<Endpoint_ptr>(online);
            }
            if(NMEAmsg_ptr tmp_msg = boost::dynamic_pointer_cast<NMEAmsg>(msgs_cpy.front())){
                for (std::list<Endpoint_ptr>::const_iterator endpoint = online_cpy.begin(), end = online_cpy.end(); endpoint != end; ++endpoint) {
                    NMEAEndpoint_ptr nmeaEnd = boost::dynamic_pointer_cast<NMEAEndpoint>(*endpoint);
                    if(nmeaEnd){
                        nmeaEnd->deliver(tmp_msg);
                    }
                }
            }
            else if(Command_ptr tmp_cmd = boost::dynamic_pointer_cast<Command>(msgs_cpy.front())){
                if(tmp_cmd->getReceiver()=="*"){
                    receiveCommand(tmp_cmd);
                }
                if(tmp_cmd->getReceiver()=="server"){
                    receiveCommand(tmp_cmd);
                }
                else{
                    bool found=false;
                    for (std::list<Endpoint_ptr>::const_iterator endpoint = online_cpy.begin(), end = online_cpy.end(); endpoint != end; ++endpoint) {
                        std::string receiver = tmp_cmd->getReceiver();
                        boost::replace_all(receiver, "*", "(.*)");
                        boost::regex reg("^"+receiver+"$");
                        boost::cmatch matches;
                        CommandEndpoint_ptr commandEnd = boost::dynamic_pointer_cast<CommandEndpoint>(*endpoint);
                        if(commandEnd){
                            if(boost::regex_search(commandEnd->getId().c_str(), matches, reg)){
                                if(tmp_cmd->getSender()!=commandEnd){
                                    commandEnd->receive(tmp_cmd);
                                    found=true;
                                }
                            }
                        }
                    }
                    if(!found){
                        tmp_cmd->answer(Answer::UNKNOWN_RECEIVER, "The receiver "+tmp_cmd->getReceiver()+" was not found \n", this->shared_from_this());
                    }
                }
            }
            else if(Answer_ptr tmp_answer = boost::dynamic_pointer_cast<Answer>(msgs_cpy.front())){
                if(tmp_answer->getReceiver()=="*"){
                    deliver(tmp_answer);
                }
                if(tmp_answer->getReceiver()=="server"){
                    deliver(tmp_answer);
                }
                else{
                    bool found=false;
                    for (std::list<Endpoint_ptr>::const_iterator endpoint = online_cpy.begin(), end = online_cpy.end(); endpoint != end; ++endpoint) {
                        std::string receiver = tmp_answer->getReceiver();
                        boost::replace_all(receiver, "*", "(.*)");
                        boost::regex reg("^"+receiver+"$");
                        boost::cmatch matches;
                        CommandEndpoint_ptr commandEnd = boost::dynamic_pointer_cast<CommandEndpoint>(*endpoint);
                        if(commandEnd){
                            if(boost::regex_search(commandEnd->getId().c_str(), matches, reg)){
                                if(tmp_answer->getSender()!=commandEnd){
                                    commandEnd->deliver(tmp_answer);
                                    found=true;
                                }
                            }
                        }
                    }
                }
            }
            {
                boost::mutex::scoped_lock lock(msgsMutex);
                msgs.remove(msgs_cpy.front());
            }
            msgs_cpy.pop_front();
        }
    }
}
Ejemplo n.º 15
0
void checkCommands(char *buffer){
  //maybe for changing physical layer probabilities
  //printf("Getting data from link layer\n");
	int size = dataLinkRecv(buffer);
	receiveCommand(buffer, size);
}