示例#1
0
u8  FING_u8SetSysPra(u8 * Copy_u8ChipAdd,u8 *Copy_u8ParamArr)
{
	u8 Local_u8Count;
	const u8 Local_u8SysPra[6]={0x01,0x00,0x03,0x0f,0x00,0x13};
	u16 Local_u16RxData,Local_u16Param;

	FING_voidSendHeader();

	for(Local_u8Count=3 ; Local_u8Count>=0;Local_u8Count--)
	  {
		  USART_Transmit(Copy_u8ChipAdd[Local_u8Count]) ;
	  }
	for(Local_u8Count=0;Local_u8Count<6;Local_u8Count++)
	  {
		  USART_Transmit(Local_u8SysPra[Local_u8Count]);
	  }
	for(Local_u8Count=0 ; Local_u8Count<10;Local_u8Count++)
	  {
		  USART_Receive(&Local_u16RxData);
	  }
	for(Local_u8Count=0 ; Local_u8Count<16;Local_u8Count++)
		  {
			  USART_Receive(&Local_u16Param);
			  Copy_u8ParamArr[Local_u8Count]=(u8)Local_u16Param ;
		  }
	  return Local_u16RxData ;

}
示例#2
0
文件: main.c 项目: vasik041/openlab
int main(void)
{
uint16_t cnt=0;
uint8_t c,div;
	DDRA = 0;
	PORTA = 0xff;
	DDRB = (1 << 4);	//TXD
	DDRC = 0xff;
	PORTC = 0;
	DDRD = 0xfe;

	USART_Init(8);		// 115.2K
	ADCSRA = 0x87;		// init ADC

//	TCCR0 = 1;
//	TIMSK = 1;
//	sei();

	for( ; ; ) {
		_WDR();

		if(USART_Ready()) {
			c = USART_Receive(STD_TIMEOUT);
			switch(c) {
				case 'g':
					div = rhex();
					if(USART_Timeout()) break;
					ADCSRA = 0x80 | div;
					div = rhex();
					if(USART_Timeout()) break;
					PORTC = div;	// gain
					get_wave();
					send_wave();
					break;

				case 'q':
					div = rhex();
					if(USART_Timeout()) break;
					ADCSRA = 0x80 | div;
					div = rhex();
					if(USART_Timeout()) break;
					PORTC = div;	// gain
					div = rhex();	// ch
					if(USART_Timeout()) break;
					get_sync_wave(div);
					send_wave();
					break;

				default:;
			}
		}

		if(++cnt > 1000) {
			PORTB = PINB ^ (1<<4); // blink
			cnt = 0;
		}
	}

	return 0;
}
示例#3
0
int main(void) {
	
	unsigned char c;
	
	/* ----------------- USART Initialization --------------------*/
	// 	BAUD Rate = 9600, F_CPU = 1000000UL, BAUD = F_CPU / (speed * (UBRR+1)) 
	//  speed = 16 for standard more (U2X = 0) and speed = 8 for double speed mode (U2X = 1)
	// 	So, We can choose UBRR = 6 for standard more (U2X = 0)
	// 	or UBRR = 12 for double speed mode (U2X = 1)
	// 	Since double speed mode (U2X = 1) provides lower error, we are going 
	//	to use it for this configuration. Please check datasheet for more detail
	//
	//	Set BAUD rate register to generate our desired BAUD 9600 (UBRR = 12)
	//	Enable double speed mode (U2X = 1)
	// 	Disable Rx, Tx complete INT, Enable Rx, Tx module
	//	USART as asynchronous mode, No Parity (UPM1:0 = 0), One STOP bit (USBS = 0)
	//	Char Size 8 bit (UCSZ2:0 = 3)
	/* ------------------------------------------------------------*/
	UBRRH = 0;
	UBRRL = 12;
	UCSRA |= 0x02;
	UCSRB |= 0x18;
	UCSRC |= 0x86;
	
    while (1) {
		// wait until a data receive from PC
		c = USART_Receive();
		// Send the received data back to PC 
		USART_Transmit(c);
    }
}
示例#4
0
int main (void)
{
	uint8_t tiles[6] = {0,0,0,0,0,0}, receivedData,i = 0;
	int quotient;
	system_init();
	ext_usart_clock_init();
	ext_usart_pin_init();
	ext_usart_init();
	configure_console();
	printf("Up and running!\r");
	while (1) {
		receivedData = USART_Receive();
		quotient = receivedData;
		i = 0;
		while(quotient != 0) {
			tiles[i] = quotient%2;
			quotient /= 2;
			i++;
		}
		for(int i = 0; i < 6; i++) {
			printf("%d",tiles[i]);
			tiles[i] = 0;
		}
	printf("\n");
	}
}
示例#5
0
/* Radio control interface */
int menuTask(task* t)
{
    if(USART_HasReceived(0))
    {
        char uInput = USART_Receive(0);
        
        switch(uInput)
        {
            // Fan
            case 'f':
                tempProcess(0x3F); // emulate "?" function button
                tempProcess(0x32); // emulate "2" function button
            break;
            
            // Enable
            case 'e':
                tempProcess(0x3F); // emulate "?" function button
                tempProcess(0x31); // emulate "2" function button
            break;

            default:
                if(uInput >= '0' && uInput <= '9')
                {
                    tempProcess(0x30 | (uInput - '0'));
                }
            break;
        }
    }
    
    return 0;
    
}
示例#6
0
int main(void) {
	init_timer();
  init_io();

  USART_Init();

  sei();

  fill_cube(0xFF);

  _delay_us(1500000);

  int mode = (PIND & (1<<PD3));  

  if (mode) {

    while (1) {

      random_filler(1);
      random_filler(0);
      loadbar();
      rain(100);

      send_voxels_rand_z(200);

      set_edges();
      _delay_us(5000000);
    }

  } else {

    int escape = 0;
    int counter = 0;

    while (1) {

      uint8_t byte;
      byte = USART_Receive();

      if (!escape) {
        if (byte == 0xAB) { // escape character
          escape = 1;
        } else if (counter < 64) {
          tab[counter/8][counter%8] = byte;
          counter++;
        }
      } else {
        if (byte == 0xCD) { // start character
          counter = 0;
        } else if (byte == 0xAB && counter < 64) {
          tab[counter/8][counter%8] = byte;
          counter++;
        }
        escape = 0;
      }
    }

  }
  return 0;
}
示例#7
0
u8  FING_u8HandShake(u8 * Copy_u8ChipAdd)
{
	u8 Local_u8Count ;
	const u8 Local_u8HndShkArr[7]={0x01,0x00,0x04,0x17,0x00,0x00,0x1C};
	u16 Local_u8RxData;

    TIM0_u8SetTime(500);
	while(TIM0_u8GetTimFlg()==0);

	FING_voidSendHeader();

  for(Local_u8Count=3 ; Local_u8Count>=0;Local_u8Count--)
  {
	  USART_Transmit(Copy_u8ChipAdd[Local_u8Count]) ;
  }
  for(Local_u8Count=0;Local_u8Count<7;Local_u8Count++)
  {
	  USART_Transmit(Local_u8HndShkArr[Local_u8Count]);
  }

  for(Local_u8Count=0 ; Local_u8Count<10;Local_u8Count++)
  {
	  USART_Receive(&Local_u8RxData);
  }
  TIM0_voiResetTimFlg();
  TIM0_voiResetTimer();

  return Local_u8RxData ;

}
示例#8
0
unsigned char receiveData(unsigned char port)
{
	unsigned char temp1 = 2;
	while(1)
	{
		if(USART_HasReceived(port))
		{
			temp1 = USART_Receive(port);
			return temp1;
		}
	}
}
示例#9
0
__attribute__((noreturn)) void main(void){
	cli();
	//set-up serial communications
	DDRD=28;//3 serial pins on d.2 to d.4 d.5 to d.7 contain msbs for flash data d.0 to d.4 is in port C
	DDRB=62;//serial clocks (B.1 SHCP) (B.2 Latch) (B.3 CE#) (B.4 OE#) (B.5 WE#)
	UBRR0H=0;
	UBRR0L=3;//set to 0.5M baud
	UCSR0A|=2;//double speed aysnc
	UCSR0B = (1<<RXEN0)|(1<<TXEN0);//Enable receiver and transmitter
	UCSR0C=6;//async 1 stop bit 8bit char no parity bits
	_delay_ms(50);
	StringPgm(PSTR("RDY"));
	USART_Receive();//wait for handshake
	char mode = USART_Receive();//wait for mode
	StringPgm(PSTR("RDY"));
	serialWrB(readId(0));
	uint8_t cap=readId(1);
	serialWrB(cap);
	__uint24 capacity=524288L;
	switch(cap){
		case 0xB5:
			capacity=131072L;
		case 0xB6:
			capacity=262144L;
		break;
	}
	if(mode=='W'){
		chipErase();
		serialWrB('D');
		verifyF(capacity);
		__uint24 x;
		for (x=0;x<capacity;++x){
			pgmB(x,USART_Receive());
			serialWrB(readB(x));
		}
	}else if(mode=='R')
		ReadChip(capacity);
	while(1);
}
示例#10
0
int main(void)
{
	
	
	mainInit();	
	
	
	
	
	printf("test");
	
	int i = 0;
	uint8_t first;
	uint8_t second;
	
	
	
    while(1)
    {
		
		first = 0;
		second = 0;
		
		first = (uint8_t)USART_Receive();
		if(first != 0xff && first != 0xaa && first != 0x00) continue;
		
		second = (uint8_t)USART_Receive();
		if(first == 0xff)
			SERVO_set(second << 2);
		if(first == 0xaa)
			MOTOR_setRef(second);
		if(first == 0x00 && second == 0x00)
			SOLENOID_fire();
			
		
		
	}
}
示例#11
0
文件: AVRGCC3.c 项目: Luden/main
int main( void ) //Главная функция

{

	USART_Init( UART_BAUD_SELECT(UART_BAUD_RATE,F_CPU) ); //Скорость соединения 19200 бит/с

	for(;;) 	    //Вечный цикл

	{

		USART_Transmit( USART_Receive() ); //Отправка принятого символа назад

	}

}
int main(void)
{
	
	DDRB=0xff;		// initialize data port(B4 to B7 as o/p pins)... any change in the port will require change of port name in place of PORTB in command and data function defination as well
	DDRC=0x0f;
	USART_Init(51);
	lcd_init();
	while(1)
	{
		unsigned char a=USART_Receive();
		if(a=='A')
		{
			command(0x08);
			string("FORWARD");
			PORTC=0x05;
		}
		else if(a=='B')
		{
			command(0x08);
			string("BACKWARD");
			PORTC=0x0a;
		}
		else if(a=='C')
		{
			command(0x08);
			string("LEFT");
			PORTC=0x06;
		}
		else if(a=='D')
		{
			command(0x08);
			string("RIGHT");
			PORTC=0x09;
		}
		else if(a=='E')
		{
			command(0x08);
			string("unknown value");
			PORTC=0x00;
		}
		else
		{
			continue;
		}
	}
}
示例#13
0
int main (void)
{


	init_main();
	/*wait for first character to be received*/
	USART_Receive(0);

	/*print welcome string*/
	USART_printf("Hello there....................\r\n->");
	DDRB |= _BV(DDB5);


	while(1)
	{
		/*exec shell*/
		shellProcess();

		/*exec timer process*/
		timing_process();

		/*exec led updater*/
		ledStringProcess();


/* set pin 5 of PORTB for output*/
 //


  /* set pin 5 high to turn led on */
  //PORTB |= _BV(PORTB5);
  //_delay_ms(BLINK_DELAY_MS*4);

  /* set pin 5 low to turn led off */
  //PORTB &= ~_BV(PORTB5);
  //_delay_ms(BLINK_DELAY_MS);


 }

 return 0;
}
示例#14
0
u8  FING_u8SetAdd(u8 * Copy_u8ChipOldAdd , u8 * Copy_u8ChipNewAdd)
{
	u8 Local_u8Count,Local_u8CastChkSum ;
	const u8 Local_u8HndShkArr[4]={0x01,0x00,0x07,0x15};
	u16 Local_u16RxData ,Local_u16CastChkSum ;
	u64 Local_u64ChekSum=0;
	FING_voidSendHeader();

  for(Local_u8Count=3 ; Local_u8Count>=0;Local_u8Count++)
  	  {
	  USART_Transmit(Copy_u8ChipOldAdd[Local_u8Count]) ;
  	  }
  for(Local_u8Count=0;Local_u8Count<4;Local_u8Count++)
  	  {
	  USART_Transmit(Local_u8HndShkArr[Local_u8Count]);
	  Local_u64ChekSum+=Local_u8HndShkArr[Local_u8Count];
  	  }

  for(Local_u8Count=3 ; Local_u8Count>=0;Local_u8Count++)
   	   {
 	  USART_Transmit(Copy_u8ChipNewAdd[Local_u8Count]);
 	 Local_u64ChekSum+=Copy_u8ChipNewAdd[Local_u8Count];
   	   }
  //Cjeck sum calculations
  Local_u16CastChkSum=(u16)Local_u64ChekSum ;
  Local_u8CastChkSum=(u8)Local_u64ChekSum ;
  USART_Transmit(Local_u8CastChkSum);
  Local_u16CastChkSum>>=8;
  USART_Transmit(Local_u16CastChkSum);


  for(Local_u8Count=0 ; Local_u8Count<10;Local_u8Count++)
  {
	  USART_Receive(&Local_u16RxData);
  }

  return Local_u16RxData ;
}
示例#15
0
文件: arci_data.c 项目: jgome043/arci
int TickFct_D(int state) {
    // State Transitions
    switch(state) {
        case START_D:
            state = INIT_D; break;        // transition to INIT_D state
        case INIT_D:
            incoming_data = data_avail = 0;
            state = WAIT_D; break;        // transition to WAIT_D state
        case WAIT_D:
            if(USART_HasReceived(0)) {
                data_avail = 1;
                // if(!wired)
                    state = READ_D;
                /*if (USART_IsSendReady(0)) {
                    USART_Send(incoming_data,0);
                }*/
            }
            else {
                data_avail = 0;
            }
            break;
        case READ_D:
            state = WAIT_D; break;
        default:
            state = START_D;              // error likely happened, restart
            break;
    }
    // State Actions
    switch(state) {
        case READ_D:
            incoming_data = USART_Receive(0);
            break;
        default:
            break;
    }
    return state;
}
示例#16
0
void DataReceive(void)
{
	characBuffer[bufferLength] = USART_Receive();
	bufferLength++;
	
	if(bufferLength >= 240)
	{
		for(int i=0;i<20;i++)
			characBuffer[i] = 0;
		bufferLength = 0;
	}
	
	if(bufferLength == 1)
	{
		if (characBuffer[0] != '[')
		{
			for (int i=0;i<20;i++)
			{
				characBuffer[i] = 0;
			}
			bufferLength = 0;
		}
	}
}
示例#17
0
int main(void)
{   port_init();
	OledInit ();
	timer1_init();
	adc_init();
	USART_Init(0x08);
	_delay_ms(10);
	
    while(1)
    { 
		USART_Receive();//读取串口数据
		Battery_voltage=adc_read(6)/102.40;
		if (RX_Flag==1) //如果有新数据
		{   RX_Flag=0;
			TX_Data=RX_Data;
			
			bb++;
		    USART_Transmit(TX_Data);	//发送串口数据
		}
		
	rest(RX_Data);
	if ((RX_Data==0x00)||(Battery_voltage<7.0))	
	{ off_servo();
	  if (Battery_voltage<7.0){DisplayChar_16X08(36,2,"~(zzz)~") ;}
	  else{DisplayChar_16X08(36,2,"~(@o@)~") ;	 }
	}
	
if ((Battery_voltage>8.0)&&(!(RX_Data==0x00)))
	{DisplayChar_16X08(36,2,"~(^o^)~") ;	 
	}
else if ((Battery_voltage>7.0)&&(!(RX_Data==0x00)))
{DisplayChar_16X08(36,2,"~(=o=)~") ;	
}
		
			
	if (RX_Data==0x01)//站立
	{ open_servo();
	  robot_stand(0,-90);
	}
	if (RX_Data==0x02)//左转
	{robot_move(0,0,40,-90,90,100);}
	if (RX_Data==0x03)//右转
	{ robot_move(0,0,-40,-90,90,100);}	
	if (RX_Data==0x04)//前进
	{ robot_move(0,40,0,-90,90,100);}	
    if (RX_Data==0x05)//后退
	{robot_move(0,-40,0,-90,90,100);}
	 if (RX_Data==0x06)//
	 {robot_Sur_Place(1,-90,90,100);}
	 if (RX_Data==0x07)//
	 {robot_move(40,0,0,-90,90,100);}
	 if (RX_Data==0x08)//
	 {robot_move(40,0,0,-90,90,100);}
	 if (RX_Data==0x09)//
	 {robot_move(20,20,0,-90,90,100);}
		
		
		//DisplayChar_16X08(36,2,"~(@o@)~") ;	 	 
	
     Cache_MDigit5(RX_Data,6,0,1 );Cache_MDigit5(Battery_voltage*100,6,88,1 );
		
		// OledDispPicture(0,32,64,512,Expression1);//爱心
	 //   OledDispPicture(0,26,75,600,Expression2);//笑脸
        //TODO:: Please write your application code
		//time_seve++; 
    }
}
示例#18
0
int main(void) {

    //setup USART recive
    UCSR0B = (1<<RXEN0);
    UCSR0C = (1<<UCSZ00) | (1<<UCSZ01);
    UBRR0 = 25; // 25 = 2400 baud; 6 = 9600 baud


    /* Set pins as output, high->output, low->input */
    DDRA = 0xFF;          /* Pin for LED out */
    DDRB = 0xFF;          /* Pin for LED out */

    DDRC = 0xFF;          /* Pin for LED out */
    DDRD = 0xFE;          /* Pin for LED out */

    unsigned char input;
    unsigned char value;
    unsigned char control;

    PORTA = 0xFF;
    PORTB = 0xFF;
    PORTC = 0xFF;
    PORTD = 0xFF;
    _delay_ms(1000);

    /*
    while (1){
    	clearStates();
    	lightDisplay();
    }*/
    /*
    int i = 0;
    unsigned int states[4] = {0x27, 0xA0, 0x56, 0xD4};  */
    /*
    while (1) {
    	unsigned char in = USART_Receive();

    	for (int i = 0; i < 8; i++) {
    		dir[i] = (in>>(7-i))&0x1;
    	}
    	displayDirection();
    }
    */

    while(1) {
        //clearStates();
        input = USART_Receive();

        //input = 0x27;
        /*  _delay_ms(2000);
          input = states[i];
          i++;
          i = i%4;*/

        control = input & CTRL_MSK;
        if (input & CMD_BIT) {
            ctrl[LONG_SIP]  = control == LONG_SIP                ? ON : OFF;
            ctrl[LONG_PUFF] = control == LONG_PUFF               ? ON : OFF;
            ctrl[SIP]       = control == SIP  || ctrl[LONG_SIP]  ? ON : OFF;
            ctrl[PUFF]      = control == PUFF || ctrl[LONG_PUFF] ? ON : OFF;
        } else {
            clearCtrl();
        }

        value = (input&VAL_MSK) >> 3;
        if (input & SPD_BIT) { //SPEED
            clearSpeed();
            if (input & NEG_BIT) { //REVERSE
                spd[0] = ON;
            }
            else { //FORWARD
                switch (value) {
                default:
                case 4:
                    spd[4+SPD_OFFSET] = ON;
                case 3:
                    spd[3+SPD_OFFSET] = ON;
                case 2:
                    spd[2+SPD_OFFSET] = ON;
                case 1:
                    spd[1+SPD_OFFSET] = ON;
                    break;
                case 0:
                    spd[0+SPD_OFFSET] = ON;
                    break;
                }
            }
            displaySpeed();
        }
        else { //DIRECTION
            clearDir();
            if (input & NEG_BIT) { //LEFT
                switch (value) {
                default:
                case 4:
                    dir[DIR_OFFSET+1-4] = ON;
                case 3:
                    dir[DIR_OFFSET+1-3] = ON;
                case 2:
                    dir[DIR_OFFSET+1-2] = ON;
                case 1:
                    dir[DIR_OFFSET+1-1] = ON;
                    break;
                case 0:
                    break;
                }
            }
            else { //RIGHT
                switch (value) {
                default:
                case 4:
                    dir[4+DIR_OFFSET] = ON;
                case 3:
                    dir[3+DIR_OFFSET] = ON;
                case 2:
                    dir[2+DIR_OFFSET] = ON;
                case 1:
                    dir[1+DIR_OFFSET] = ON;
                    break;
                case 0:
                    break;
                }
            }
            displayDirection();
        }
    }

    return 0;

}
static int32_t USART1_Receive (void *data, uint32_t num)
{
    return USART_Receive (data, num, &USART1_Resources);
}
示例#20
0
/**
* The main loop which waits for commands via blue tooth and
* then acts based on commands received.
*
* @author Jacob Moyer,
*         Ed Droesch,
*         Aaron Pederson, &
*         Matthew Backes
*
* @date 12/13/2013
*/
void main()
{
    ///Initializes the open_interface struct to be used throughout the program.
    oi_t *sensor_data = oi_alloc();
    oi_init(sensor_data);
    initializer();
    char key =0;

    ///Waits for commands from the USART connection,
    ///Then performs the command and returns that the command was performed.
    while(1)
    {
        char message[32] = "";
        key = USART_Receive();

        ///Returns what the current tape sensor is reading.
        if (key == 'p')
        {
            oi_update(sensor_data);
            sprintf(message,"sensor->signal =%d\r\n",(int)sensor_data->cliff_frontleft_signal);
            string_tran(message);
        }

        ///Moves the servo motor to the 0 degree position.
        if(key == 'c')
        {
            calibrate_servo(0);
        }

        ///Scans 0 - 180 degrees in front of the robot and returns the readings,
        ///it also guesses where objects are and returns their angle and width.
        if(key == 'j')
        {
            fullScan();
            string_tran("Scan Complete.\r\n");
        }

        ///Moves FORWARD_DISTANCE centimeters forward.
        if(key =='w')
        {
            sprintf(message,"Moved %d\r\n",move(sensor_data, FORWARD_DISTANCE,&sensors));
            string_tran(message);
        }

        ///Moves BACKWARD_DISTANCE centimeters backwards.
        if(key=='s')
        {
            sprintf(message,"Moved %d\r\n",move(sensor_data, BACKWARD_DISTANCE,&sensors));
            string_tran(message);
        }

        ///Rotates ROTATE_DEGREES counterclockwise.
        if(key=='a')
        {
            turn_CCW(sensor_data,ROTATE_DEGREES);
            sprintf(message,"Rotated %d\r\n",ROTATE_DEGREES);
            string_tran(message);
        }

        ///Rotates ROTATE_DEGREES clockwise.
        if(key=='d')
        {
            turn_CCW(sensor_data,-ROTATE_DEGREES);
            sprintf(message,"Rotated %d\r\n",-ROTATE_DEGREES);
            string_tran(message);
        }

        ///Plays the Morrowind theme song.
        if(key=='r')
        {
            play_morrowind();
            string_tran("Playing song.");
        }
    }
}
示例#21
0
void mainTick(){
	static unsigned char button;
	static unsigned char pressed; //decrease states for buttonpress
	button = ~PINA;
	switch(gameStatus){
		case intro:
			if(GetBit(button,0)){
				gameStatus = play;
				playTime = 0;
				pressed = 1;
				currScore = 0;
				lcdTick();
				if(USART_IsSendReady())
					USART_Send(0x41);
			}
			else if(USART_HasReceived()){
				tempMessage = USART_Receive();
				if( tempMessage == 0xC1 ){
					gameStatus = highscore;
					playTime = 0;
					lcdTick();
				}
				else if( tempMessage == 0xC2){
					gameStatus = resetHighScore;
					currHighScore = 0;
					eeprom_write_byte ((uint8_t*) 46, currHighScore);
					playTime = 0;
					lcdTick();
				}
			}
			else
				gameStatus = intro;
			break;
		case highscore:
			if(playTime == 500){
				gameStatus = intro;
				lcdTick();
			}
			else
				gameStatus = highscore;
			break;
		case resetHighScore:
			if(playTime == 500){
				gameStatus = intro;
				lcdTick();
			}
			else
				gameStatus = resetHighScore;
			break;
		case play:
			if(!(GetBit(button,0) && !pressed) && playTime < 4000 )
				gameStatus = play;
			else if((GetBit(button,0) && !pressed) || playTime == 4000){
				gameStatus = gameOver;
				lcdTick();
				playTime = 0;
				if(currScore > currHighScore){
					currHighScore = currScore;
					eeprom_write_byte ((uint8_t*) 46, currHighScore);
				}
				if(USART_IsSendReady())
				USART_Send(0x40);
			}
			else
				gameStatus = play;
			break;
		case gameOver:
			if(playTime == 500){
				gameStatus = intro;
				lcdTick();
			}
			else if(playTime < 500)
				gameStatus = gameOver;
			else
				gameStatus = gameOver;
			break;
	}
	switch(gameStatus){
		case intro:
			PORTB = 0;
			currScore = 0;
			break;
		case highscore:
			playTime++;
			break;
		case resetHighScore:
			playTime++;
			break;
		case play:
			if(!GetBit(button,0))
				pressed = 0;
			playTime++;
			if(USART_HasReceived()){
				tempMessage = USART_Receive();
				if(GetBit(tempMessage,7) && !GetBit(tempMessage,6))
				if((tempMessage & 0x3F) != currScore)
					updateScore(tempMessage & 0x3F);
			}
			break;
		case gameOver:
			playTime++;
			break;
	}
}
示例#22
0
void Tick_Fct(){
	distance = read_ultrasonic();
	
	if (USART_HasReceived(0))
	{
		direction = USART_Receive(0);
		PORTC = direction;
	}
	
	switch(state){//transitions
		case init:
			state = start;
			break;
		
		case start:
			if(direction == 0xFF){
				state = wait_impact;
				}else{
				state = controlled;
			}break;
			
		case controlled:
			if(direction == 0xFF){
				state = wait_impact;
			}else{
				count_1 = 0;	
				state = hold_direction;
			}break;
		
		case hold_direction:
			if(count_1 < 30){
				state = hold_direction;
			}else{
				state = reset_direction;
			}
			break;
		
		case reset_direction:
			state = controlled;
			break;
			
		case wait_impact:
			if (direction != 0xFF)
			{
				state = controlled;
			}
			else if(direction == 0xFF && distance > 30){
				state = wait_impact;
				}else {
				state = stop_car;
				count  = 0;
				PORTA = 0x00;
			}
			break;
		
		case stop_car:
			if (direction != 0xFF)
			{
				state = controlled;
			}
			else if(direction == 0xFF && count < 100){
				state = stop_car;
			}
			else if(direction == 0xFF && !(count < 100)){
				state = turn_left;
				count = 0;
			}
			break;
		
		case turn_left:
			if (direction != 0xFF)
			{
				state = controlled;
			}
			else if(direction == 0xFF && count < 100){
				state = turn_left;
			}
			else if(direction == 0xFF && !(count < 100)){
				state = wait_impact;
			}
			break;
		
		default:
			state = init;
			break;
	}
	
	switch(state){//actions
		case wait_impact:
			PORTA = 0x04;
			break;
		
		case stop_car:
			count++;
			PORTA = 0x42;
			break;
		
		case turn_left:
			count++;
			PORTA = 0x24;
			break;
		
		case start:
			PORTA = 0x00;
			break;
		
		case controlled:
			if(direction == 0x0A){
				PORTA = 0x00;
			}else if (direction == 0x01){
				PORTA = 0x44;//forward
			}else if (direction == 0x02){//reverse or backward
				PORTA = 0x42;
			}else if (direction == 0x04){//left
				PORTA = 0x24;
			}else if(direction == 0x08){//right
				PORTA = 0x44;
			}
			break;
			
		case hold_direction:
			count_1++;
			break;
		case reset_direction:
			PORTA = 0x00;
			break;
			
		default:
			break;
	}
}
int TickFct_BluetoothReceiver(int state){
	switch(state){
		case bluetoothWait:
			if(USART_HasReceived(0) && !bluetoothEnable){
				USART_Flush(0);
				state = bluetoothWait;
			}
			else if(USART_HasReceived(0) && bluetoothEnable){
				state = bluetoothReceived;
				position = 0;
				lastReceivedChar = 0;
				clearInputPin();
			}
			else{
				state = bluetoothWait;
			}
			break;
		case bluetoothReceived:
			if(!bluetoothEnable){
				state = bluetoothWait;
			}
			else if(lastReceivedChar != '*'){
				state = bluetoothWaitForNext;
			}
			else{
				state = bluetoothWait;
			}
			break;
		case bluetoothWaitForNext:
			if(!bluetoothEnable){
				state = bluetoothWait;
			}
			else if(!USART_HasReceived(0)){
				state = bluetoothWaitForNext;
			}
			else{
				state = bluetoothReceived;
			}
			break;
		default:
			state = bluetoothWait;
			break;
	}
	switch(state){
		case bluetoothWait:
			break;
		case bluetoothReceived:
			while(lastReceivedChar != '*'){
				lastReceivedChar = USART_Receive(0);
				if(lastReceivedChar != '*'){
					inputPin[position++] = lastReceivedChar;
				}
				else{
					inputPin[position] = '\0';
					pinInputComplete = 1;
				}
			}
			break;
		case bluetoothWaitForNext:
			break;
	}
	return state;
}
示例#24
0
int main(int argc, char *argv[])
{
int i=0;
int h=0;
int bupi=0;


cli();
memset(command,'$',58);
init();
timer0_init();
timer1_init();
timer3_init();
timer4_init();
timer5_init();
//lcd_init();
//lcd_string("Welcome");
//lcd_move(0,1);
//lcdconfig();
//lcd_string("Give me a code:");
//lcd_move(0,2);
UART_init();
//adc_init();
//lcdsenddata('F');
//lcd_num(123456);
_delay_ms(1500);
sei();

	while(1)
	{
//-------------------------------------------------scan for input	
		while(mode==0)
		{
			while(1)//scan line
			{				

				if(command[comm]=USART_Receive())
				{
					if((command[comm]==13||command[comm]=='\n'||command[comm]==59)&&(comm<59))
					{
					break;
					}

					if(echo==1)
					{
					//USART_Transmit('[');
				//	USART_Transmit(comm+48);
				//	USART_Transmit(']');
					USART_Transmit(command[comm]);
					}

					comm++;

				}
				else
				{
				}

			
			}
			mode=1;
		
			if(echo==1)
			{
			USART_String_Transmit("\nTransition to parsing.");
			}
		
		}
		


//-------------------------------------------------parse commands
		while(mode==1)//parse commands
		{
			for(i=0;i<comm;i++)//cycling i till \n-1
			{

				if(command[i]=='N'&&command[i+1]>47&&command[i+1]<58)//GET LINE NUMBER
				{
					if(echo)
					{
					USART_String_Transmit("\n Getting line number.");
					}

					temp_line_number=fetchlong(command,i,'N');
				}				

				if(command[i]=='M'&&command[i+1]=='1'&&command[i+2]=='0'&&command[i+3]=='5')//GET EXTRUDER TEMP
				{

				}
				

				
				if(command[i]=='M'&&command[i+1]=='1'&&command[i+2]=='0'&&command[i+3]=='4')//SET EXTRUDER TEMP FAST SXXX
				{
	
				}					

				
				
				if(command[i]=='M'&&command[i+1]=='1'&&command[i+2]=='0'&&command[i+3]=='9')//SET EXTRUDER TEMP AND WAIT RXXX
				{
				
				}

				
				
				if(command[i]=='M'&&command[i+1]=='1'&&command[i+2]=='4'&&command[i+3]=='0')//SET BED TEMP FAST SXXX
				{
				
				}
				

				
				if(command[i]=='M'&&command[i+1]=='1'&&command[i+2]=='9'&&command[i+3]=='0')//WAIT FOR BED TEMP TO HIT RXXX
				{
				
				}

				
				
				if(command[i]=='M'&&command[i+1]=='1'&&command[i+2]=='0'&&command[i+3]=='7')//FAN OFF
				{
				
				}
				
				
				
				if(command[i]=='M'&&command[i+1]=='1'&&command[i+2]=='0'&&command[i+3]=='6')//FAN ON WITH FAN SPEED S255MAX
				{
				
				}

				
				

				if(command[i]=='M'&&command[i+1]=='8'&&command[i+2]=='2'&&command[i+3]==' ')//EXTRUDER TO ABSOLUTE MODE
				{
				
				}
				

				
				if(command[i]=='G'&&command[i+1]=='2'&&command[i+2]=='1'&&command[i+3]==' ')//METRIC VALUES
				{
				
				}

				
				
				if(command[i]=='G'&&command[i+1]=='9'&&command[i+2]=='0'&&command[i+3]==' ')//ABSOLUTE POSITIONING
				{
				
				}

				
				
				if(command[i]=='G'&&command[i+1]=='9'&&command[i+2]=='2'&&command[i+3]==' ')//ZERO EXTRUDED LENGTH WITH E0 otherwise set origin?
				{
				
				}

				
				
				if(command[i]=='G'&&command[i+1]=='0'&&command[i+2]==' ')//MOVE WITHOUT EXTUSION
				{
				if(echo)
				{
				USART_String_Transmit("\nG0 command.");
				}
				line_engine(double_scan_x,double_scan_y,double_scan_z,double_scan_e,i);
				if((echo==1)&&(xroll==1)&&(yroll=1))
				{
				USART_String_Transmit("\n Xroll=1");
				USART_String_Transmit("\n Yroll=1");
				}
				mode==2;
				
				}

				
				
				if(command[i]=='G'&&command[i+1]=='1'&&command[i+2]==' ')//MOVE WITH EXTRUSION
				{



				}

				
				
				if(command[i]=='Q'&&command[i+1]=='1')//MOTOR TEST					{
				{
					if(echo)
					{
					USART_String_Transmit("\n Motor test on.");
					//xroll=1;
					yroll=1;
					//testval=(threefetchdouble(command,i,'E')/0.01)*16;
					}
				}

				
				
				if(command[i]=='Q'&&command[i+1]=='0')//MOTOR TEST
				{
					if(echo)
					{
					USART_String_Transmit("\n Motor test off.");
					}
					//xroll=0;
					yroll=0;
				}
				

				
			}
			mode=2;
				if(echo)
				{
				USART_String_Transmit("\nTransition to set outputs.");
				}
			


		}	



//-------------------------------------------------setting outputs
		while(mode==2)
		{
			while(zroll==1||eroll==1||xroll==1||yroll==1)
			{
				if(USART_Receive()=='.')
				{
				zroll=0;
				eroll=0;
				xroll=0;
				yroll=0;
				
				USART_String_Transmit("\nSW Emergency stopped, please reset!");
			//	PINK|=0b00000001;
			//	PINA|=0b00000100;
			//	PINF|=0b00000100;
			//	PIND|=0b10000000;

				}
			}

			if(zroll==0&&eroll==0&&xroll==0&&yroll==0)
			{
				if(echo)
				{
				USART_String_Transmit("\nTransition to mode 3, reseting parameters.");
				}

				mode=3;
			}


		}



//-------------------------------------------------clear things
		while(mode==3)
		{
		cli();

		memset(command,'$',58);
		comm=0;
		i=0;
		double_scan_x=-1.0;
		double_scan_y=-1.0;
		double_scan_z=-1.0;
		double_scan_e=-1.0;
		
			if(echo)
			{
			USART_String_Transmit("\nParameters reseted returning to scanning mode");
			}

		USART_String_Transmit("\n\rok");
		
		sei();

		mode=0;
		}



		
//-------------------------------------------------
		while(mode==4)
		{

		}		

	}



return 0;
}