示例#1
0
文件: alpha.c 项目: jngbsn/alpha
void step()
{
	// print pointer to current instruction if debug is on, THIS WILL CRASH WITH LOOPS
	// if(DEBUG) {
	// 	char* point = malloc(sizeof(program));
	// 	for(int i = 0; i <= counter; ++i) strcat(point, "^");
	// 	printf("%s\n%s\n", program, point);
	// 	free(point);
	// }
	if(FLAGS & F_LOOPINIT) {
		loopreg = program[counter++] - 48;
		loopcounter = counter--;
		TOGGLE(F_LOOPINIT);
		TOGGLE(F_LOOP);
		if(DEBUG) printf("start of loop at: %i\n", loopcounter);
		if(DEBUG) printf("loopreg: %i\n", loopreg);
	} 
	if(FLAGS & F_LOOP) {
		if(program[counter] == 'l') {
			if(r[loopreg] == 0) {
				counter++;
				TOGGLE(F_LOOP);
				return;
			} else {
				counter = loopcounter;
			}
		}
		interp(program[counter]);
	} else {
		interp(program[counter]);
	}
}
示例#2
0
文件: cpld.c 项目: cokesme/f1rmware
//# MENU cpld
void cpld_menu(){
	getInputWaitRelease();
	SETUPgout(EN_1V8);
	ON(EN_1V8);
	delayNop(1000000); /* wait until cpld boot */
	cpu_clock_set(204);

	lcdClear();
	lcdPrintln("CPLD");
	lcdNl();
	lcdNl();
	bytes=0;
	lcdPrint(IntToStr(bytes,5,F_LONG));
	lcdPrint(" bytes...");
	lcdNl();

	#define WAIT_LOOP_DELAY (6000000)
	#define ALL_LEDS  (PIN_LED1|PIN_LED2|PIN_LED3)
	int i;
	int error;
	FRESULT res;

	res=f_open(&file, "cpld.xsv", FA_OPEN_EXISTING|FA_READ);
	if(res!=FR_OK){
	    lcdPrintln("FOPEN ERROR");
	    lcdPrintln(f_get_rc_string(res));
	    lcdDisplay();
	    getInputWait();
	    return;
	};
	refill_cpld_buffer_fs();

	error = cpld_jtag_program(sizeof(cpld_xsvf_buffer),
				  cpld_xsvf_buffer,
				  refill_cpld_buffer_fs);
	if(error){
	    lcdPrintln("Programming failed!");
	    lcdPrintln(IntToStr(error,5,0));
	    lcdDisplay();
	    /* LED3 (Red) steady on error */
	    ON(LED3);
	    while (1);
	};


	lcdPrintln("Success.");
	lcdDisplay();

	for (res=0;res<10;res++){
	    /* blink LED1, LED2, and LED3 on success */
	    TOGGLE(LED1);
	    TOGGLE(LED2);
	    TOGGLE(LED3);
	    for (i = 0; i < WAIT_LOOP_DELAY; i++)  /* Wait a bit. */
		__asm__("nop");
	};
	/* XXX: Maybe power toggle needed to start CPLD? */
	OFF(EN_1V8);
};
示例#3
0
void assert_die(void) {
    SETUPgout(LED4);
    while(1) {
        TOGGLE(LED4);
        delay(3000000);
    };
};
示例#4
0
void		process_flags(t_mod *m)
{
    if (ft_strchr("sdipc", m->convers) && GET(m->flag, F_HASH))
        TOGGLE(m->flag, F_HASH);
    if (GET(m->flag, F_ZERO) && m->prec && ft_strchr("dDioOuUixX", m->convers))
        TOGGLE(m->flag, F_ZERO);
    if (GET(m->flag, F_ZERO) && GET(m->flag, F_MINUS))
        TOGGLE(m->flag, F_ZERO);
    if (GET(m->flag, F_SPACE) && ft_strchr("oOuUxXD", m->convers))
        TOGGLE(m->flag, F_SPACE);
    if (GET(m->flag, F_SPACE) && GET(m->flag, F_PLUS))
        TOGGLE(m->flag, F_SPACE);
    if (GET(m->flag, F_PREC) && !m->length
            && ft_strchr("dDioOuUixX", m->convers))
        SET(m->flag, F_ZERO);
}
示例#5
0
/**
 * The main periodic process implementation.
 *
 * This function is being called every time new sensor data arrives through the
 * interrupt system.
 */
void run_sensor_process(void)
{
	u16 battery_voltage = adc_data.battery_voltage;
	u16 current = adc_data.current;
	u16 temp = adc_data.temp;

	TOGGLE(LED_RED);
	/* Calculate battery voltage */
	sensors.battery_voltage =
		SENSOR_OFFSET_IIR(sensors.battery_voltage, battery_voltage,
				sensor_params.bv.offset,
				sensor_params.bv.iir);

	/* Calculate global current */
	sensors.current =
		SENSOR_OFFSET_IIR(sensors.current, current,
				sensor_params.c.offset,
				sensor_params.c.iir);

	/* Calculate power stage temperature */
	sensors.temp =
		SENSOR_OFFSET_IIR(sensors.temp, temp,
				sensor_params.t.offset,
				sensor_params.t.iir);

	if (sensor_trigger_debug_output == 10) {
		sensor_trigger_debug_output = 0;
		(void)gpc_register_touched(GPROT_ADC_BATTERY_VOLTAGE_REG_ADDR);
		(void)gpc_register_touched(GPROT_ADC_CURRENT_REG_ADDR);
		(void)gpc_register_touched(GPROT_ADC_TEMPERATURE_REG_ADDR);
	} else {
		sensor_trigger_debug_output++;
	}

}
示例#6
0
文件: alpha.c 项目: jngbsn/alpha
void interp(char c) {
	switch(c) {
		case 's': {
			TOGGLE(F_SET);
			break;
		}
		case 'p': {
			TOGGLE(F_PUT);
			break;
		}
		case 'o': {
			printf("%c", r[curreg]);
			break;
		}
		case 'i': {
			r[curreg]++;
			break;
		}
		case 'd': {
			r[curreg]--;
			break;
		}
		case 'l': {
			TOGGLE(F_LOOPINIT);
			break;
		}
		default: {
			if(FLAGS & F_SET) {
				curreg = program[counter] - 48;
				if(DEBUG) printf("current reg: %i\n", curreg);
				TOGGLE(F_SET);
			}
			if(FLAGS & F_PUT) {
				char buf[3] = "\0\0\0";
				for(int i = 0; i < 3; ++i) {
					buf[i] = program[counter++];
					if(program[counter] == 'p')
						// counter++;
						break;
				}
				r[curreg] = (uint8_t)atoi(buf);
				if(DEBUG) printf("reg: %i\n", r[curreg]);
				TOGGLE(F_PUT);
			}
		}
	}
}
示例#7
0
文件: error.c 项目: wulfskin/mod-rob
void error( void )
{
	char current,cycle;
	for (current=0,cycle=0;cycle<14;current=(current+1)%7,cycle++){
		TOGGLE(PORTC,current);   	//toggle led)
		_delay_ms(100); 			//short delay
	}
}
示例#8
0
bool CodeDetector::DetectAndAdjustMusicOptions( GameController controller )
{
	const Style* pStyle = GAMESTATE->GetCurrentStyle();
	PlayerNumber pn = pStyle->ControllerToPlayerNumber( controller );

	for( int c=CODE_MIRROR; c<=CODE_CANCEL_ALL; c++ )
	{
		Code code = (Code)c;
		
		PlayerOptions& po = GAMESTATE->m_pPlayerState[pn]->m_PlayerOptions;

		if( EnteredCode(controller,code) )
		{
			switch( code )
			{
			case CODE_MIRROR:					po.ToggleOneTurn( PlayerOptions::TURN_MIRROR );		break;
			case CODE_LEFT:						po.ToggleOneTurn( PlayerOptions::TURN_LEFT );		break;
			case CODE_RIGHT:					po.ToggleOneTurn( PlayerOptions::TURN_RIGHT );		break;
			case CODE_SHUFFLE:					po.ToggleOneTurn( PlayerOptions::TURN_SHUFFLE );	break;
			case CODE_SUPER_SHUFFLE:			po.ToggleOneTurn( PlayerOptions::TURN_SUPER_SHUFFLE );	break;
			case CODE_NEXT_TRANSFORM:			po.NextTransform();									break;
			case CODE_NEXT_SCROLL_SPEED:		INCREMENT_SCROLL_SPEED( po.m_fScrollSpeed );		break;
			case CODE_PREVIOUS_SCROLL_SPEED:	DECREMENT_SCROLL_SPEED( po.m_fScrollSpeed );	break;
			case CODE_NEXT_ACCEL:				po.NextAccel();										break;
			case CODE_NEXT_EFFECT:				po.NextEffect();									break;
			case CODE_NEXT_APPEARANCE:			po.NextAppearance();								break;
			case CODE_NEXT_TURN:				po.NextTurn();										break;
			case CODE_REVERSE:					po.NextScroll();									break;
			case CODE_HOLDS:					TOGGLE( po.m_bTransforms[PlayerOptions::TRANSFORM_NOHOLDS], true, false );				break;
			case CODE_MINES:					TOGGLE( po.m_bTransforms[PlayerOptions::TRANSFORM_NOMINES], true, false );					break;
			case CODE_DARK:						FLOAT_TOGGLE( po.m_fDark );							break;
			case CODE_CANCEL_ALL:				po.Init();
												po.FromString( PREFSMAN->m_sDefaultModifiers );		break;
			case CODE_HIDDEN:					TOGGLE_HIDDEN; break;
			case CODE_RANDOMVANISH:				TOGGLE_RANDOMVANISH; break;
				
				// po.SetOneAppearance(po.GetFirstAppearance()); break;
			default: ;
			}
			return true;	// don't check any more
		}
	}

	return false;
}
示例#9
0
文件: util.c 项目: cokesme/f1rmware
void tick_alive(void){
    static int foo=0;

    if(GLOBAL(alivechk)==0)
        return;

	if(foo++>500/SYSTICKSPEED){
		foo=0;
        TOGGLE(LED2);
	};
    return;
}
示例#10
0
文件: can.c 项目: OpenUAS/open-bldc
void usb_lp_can_rx0_irq_handler(void)
{
    static int delay = 100;

    //ADC_ClearITPendingBit(CAN1, CAN_IT_FMP0);

    CAN_Receive(CAN1, CAN_FIFO0, &can_rx_msg);

    if(delay == 0) {
        delay = 100;
        TOGGLE(LED_RED);
    } else {
        delay--;
    }
    TOGGLE(LED_BLUE);
#ifdef CAN__USE_EXT_ID
    //_can_run_rx_callback(can_rx_msg.ExtId, can_rx_msg.Data, can_rx_msg.DLC);
#else
    //_can_run_rx_callback(can_rx_msg.StdId, can_rx_msg.Data, can_rx_msg.DLC);
#endif
}
/**
 * One shot callback from the soft Sys Tick timer
 */
void sys_tick_timer_callback_one_shot(int id)
{
	static int state;
	if (state == 0) {
		sys_tick_timer_update(id, 100000);
		state++;
	} else {
		sys_tick_timer_unregister(id);
		state--;
	}
	TOGGLE(LED_RED);
}
示例#12
0
文件: ppack.c 项目: cokesme/f1rmware
//# MENU Apack
void ppack_menu() {
	lcdClear();
	lcdPrintln("PPack port");
	lcdPrintln("");
	lcdPrintln("up=enable");
	lcdDisplay();
	dac_init(false);

	cpu_clock_set(204); // WARP SPEED! :-)
	hackrf_clock_init();
	rf_path_pin_setup();
	/* Configure external clock in */
	scu_pinmux(SCU_PINMUX_GP_CLKIN, SCU_CLK_IN | SCU_CONF_FUNCTION1);

	sgpio_configure_pin_functions();

	ON(EN_VDD);
	ON(EN_1V8);
	OFF(MIC_AMP_DIS);
	complex_s8_t * samples;

	while(1){
		switch(getInputRaw()){
			case BTN_UP:
			    // ON(MIXER_EN); // hackrf does this
			    cpu_clock_set(204); // WARP SPEED! :-)
			    si5351_init();
			    portapack_init();
			    getInputWaitRelease();

			    break;
			case BTN_DOWN:
			    lcdPrintln("file");
			    writeFile("samples.8", (char*)0x20000000,(uintptr_t)s8ram-0x20000000);
			    break;
			case BTN_LEFT:
			    lcdPrintln("reset");
			    s8ram=(complex_s8_t*)0x20000000;
			    break;
			case BTN_RIGHT:
				break;
			case BTN_ENTER:
				return;
		};
		TOGGLE(LED2);
		delayms(40);
		lcdPrint(IntToStr((uintptr_t)s8ram,8,F_HEX));
		lcdPrint(" ");
		lcdPrintln(IntToStr(sctr,7,F_LONG));
		lcdDisplay();
	};
};
示例#13
0
文件: toggleview.c 项目: DINKIN/nip2
/* Toggleview callback.
 */
static void
toggleview_change_cb( GtkWidget *widget, Toggleview *togview )
{
	Toggle *tog = TOGGLE( VOBJECT( togview )->iobject );
	Classmodel *classmodel = CLASSMODEL( tog );

	if( tog->value != GTK_TOGGLE_BUTTON( widget )->active ) {
		tog->value = GTK_TOGGLE_BUTTON( widget )->active;

		classmodel_update( classmodel );
		symbol_recalculate_all();
	}
}
示例#14
0
文件: toggleview.c 项目: DINKIN/nip2
static void 
toggleview_refresh( vObject *vobject )
{
	Toggleview *togview = TOGGLEVIEW( vobject );
	Toggle *tog = TOGGLE( VOBJECT( togview )->iobject );

        gtk_toggle_button_set_active( 
		GTK_TOGGLE_BUTTON( togview->toggle ), tog->value );
	set_glabel( GTK_BIN( togview->toggle )->child, "%s", 
		IOBJECT( tog )->caption );

	VOBJECT_CLASS( parent_class )->refresh( vobject );
}
示例#15
0
void led_blink_halt(void)
{
	unsigned char i;
	while(1)
	{
		for(i=0; i<100 ;i++)
		{
			__asm__ __volatile__ ("wdr");
			_delay_ms(5);
		}
		TOGGLE(LED_B);
	}
}
示例#16
0
文件: can.c 项目: 411592004/open-bldc
void usb_lp_can_rx0_isr(void)
{
	static int delay = 100;

	can_receive(CAN1, 0, false,
		    &can_rx_msg.id,
		    &can_rx_msg.ide,
		    &can_rx_msg.rtr,
		    &can_rx_msg.fmi,
		    &can_rx_msg.dlc,
		    can_rx_msg.data);

	can_fifo_release(CAN1, 0);


	if (can_rx_msg.data[0] & 1) {
		ON(LED_ORANGE);
	} else {
		OFF(LED_ORANGE);
	}

	if (can_rx_msg.data[0] & 2) {
		ON(LED_GREEN);
	} else {
		OFF(LED_GREEN);
	}

	if(delay == 0) {
		delay = 100;
		TOGGLE(LED_RED);
	}else{
		delay--;
	}
		TOGGLE(LED_BLUE);

	//_can_run_rx_callback(can_rx_msg.id, can_rx_msg.data, can_rx_msg.dlc);

}
示例#17
0
void		process_modifier(t_mod *m)
{
    if (ft_strchr("DOCU", m->convers))
    {
        UNSET(m->modif, MOD_ALL);
        SET(m->modif, MOD_L);
        m->convers = ft_tolower(m->convers);
    }
    if (m->convers == 's' && GET(m->modif, MOD_L))
    {
        TOGGLE(m->modif, MOD_L);
        m->convers = 'S';
    }
}
示例#18
0
int main(void)
{

	system_init();
	led_init();
	int flag = 0;

	  /* Enable GPIOB clock */
	  /*RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOB, ENABLE);

	  /* Configure PB.09 pin as input floating */
	  /*GPIO_InitStructure.GPIO_Pin = GPIO_Pin_10;
	  GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
	  GPIO_Init(GPIOB, &GPIO_InitStructure);

	  /* Enable AFIO clock */
	 // RCC_APB2PeriphClockCmd(RCC_APB2Periph_AFIO, ENABLE);
	  /* Connect EXTI9 Line to PB.09 pin */
	 // GPIO_EXTILineConfig(GPIO_PortSourceGPIOB, GPIO_PinSource10);

	  /* Configure EXTI9 line */
	 /* EXTI_InitStructure.EXTI_Line = EXTI_Line10;
	  EXTI_InitStructure.EXTI_Mode = EXTI_Mode_Interrupt;
	  EXTI_InitStructure.EXTI_Trigger = EXTI_Trigger_Rising;
	  EXTI_InitStructure.EXTI_LineCmd = ENABLE;
	  EXTI_Init(&EXTI_InitStructure);

	  /* Enable and set EXTI9_5 Interrupt to the lowest priority */
	/*  NVIC_InitStructure.NVIC_IRQChannel = EXTI0_IRQn;
	  NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 0x0F;
	  NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0x0F;
	  NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;

	  NVIC_Init(&NVIC_InitStructure);*/

	while(1)
	{
		if(!(flag % 100000))
		{
			TOGGLE(LED_RED);
			//DEBUG("HELLO WORLD\n");
			flag++;
		}else
		{
			flag++;
		}

	}
}
/**
 * Sys Tick soft timer test main function
 */
int main(void){
	uint32_t timer;

	mcu_init();
	led_init();
	sys_tick_init();

	(void)sys_tick_timer_register(sys_tick_timer_callback, 1000000);

	while (true) {
		timer = sys_tick_get_timer();
		while (!sys_tick_check_timer(timer, 50000)) {
			__asm("nop");
		}
		TOGGLE(LED_GREEN);
	}
}
示例#20
0
文件: can.c 项目: OpenUAS/open-bldc
int can_transmit(uint32_t id, const uint8_t *buf, uint8_t len)
{
    if(len > 8) {
        return -1;
    }

#ifdef CAN__USE_EXT_ID
    can_tx_msg.ExtId = id;
#else
    can_tx_msg.StdId = id;
#endif
    can_tx_msg.DLC = len;

    memcpy(can_tx_msg.Data, buf, len);

    CAN_Transmit(CAN1, &can_tx_msg);

    TOGGLE(LED_ORANGE);

    return 0;
}
示例#21
0
文件: led.cpp 项目: hobbean/Marlin
void led_status()
{
  if (((millis() - previous_millis_led) < LED_UPDATE_INTERVAL))
    return;
  previous_millis_led=millis();
  /* // Not sure what this did - AB
  if (degTargetHotend(active_extruder) > HEATER_0_MINTEMP)
  {
    if (((millis() - previous_millis_toggle) < LED_HOTEND_ACTIVE_FLASH))
        return;
    previous_millis_toggle=millis();
    TOGGLE(LED_PIN);
  }
  else
  {
    WRITE(LED_PIN, READ(HEATER_0_PIN)); // Just tell us if the extruder heater is on
  }*/
  if(READ(HEATER_0_PIN))
     WRITE(LED_PIN, 1);  // Heater on
  else
     TOGGLE(LED_PIN);  // Heater off
}
示例#22
0
/**
 * Timer 2 interrupt handler
 */
void tim2_isr(void)
{

	if (timer_get_flag(TIM2, TIM_SR_CC1IF)) {
		timer_clear_flag(TIM2, TIM_SR_CC1IF);

		/* prepare for next comm */
		comm_tim_data.last_capture_time = timer_get_counter(TIM2);
		//comm_tim_data.last_capture_time = timer_get_ic_value(TIM2, TIM_OC1);
		//comm_tim_data.last_capture_time = TIM2_CCR1;

		/* triggering commutation event */
		if (comm_tim_trigger_comm || comm_tim_trigger_comm_once) {
			timer_generate_event(TIM1, TIM_EGR_COMG);
			//timer_generate_event(TIM1, TIM_EGR_COMG | TIM_EGR_UG);
		}

		/* (re)setting "semaphors" */
		comm_tim_trigger_comm_once = false;
		comm_tim_trigger = true;

		/* Set next comm time */
		timer_set_oc_value(TIM2, TIM_OC1,
				comm_tim_data.last_capture_time +
				(comm_tim_data.freq * 2));
		//timer_set_oc_value(TIM2, TIM_OC1,
		//		comm_tim_data.last_capture_time +
		//		65535);

		TOGGLE(DP_EXT_SCL);
	}

	if (timer_get_flag(TIM2, TIM_SR_UIF)) {
		timer_clear_flag(TIM2, TIM_SR_UIF);

		comm_tim_state.update_count++;
	}
}
示例#23
0
void spectrum_callback(uint8_t* buf, int bufLen)
{
	TOGGLE(LED2);
	if (displayMode == MODE_SPECTRUM)
		lcdClear();
	else if (displayMode == MODE_WATERFALL)
		lcdShift(0,1,0);

	for(int i = 0; i < 128; i++) // display 128 FFT magnitude points
	{
		// FFT unwrap:
		uint8_t v;
		if(i < 64) // negative frequencies
			v = buf[(bufLen/2)+64+i];
		else // positive frequencies
			v = buf[i-64];

		// fill display
		if (displayMode == MODE_SPECTRUM)
		{
			for(int j = 0; j < (v/2); j++)
				lcdBuffer[i+RESX*(RESY-j)] = 0x00;
		}
		else if (displayMode == MODE_WATERFALL)
		{
			lcdSetPixel(i,RESY-1,v);
		}
	}

	// text info
	lcdSetCrsr(0,0);
	lcdPrint("f=");
	lcdPrint(IntToStr(freq/1000000,4,F_LONG));
	lcdPrintln("MHz                ");
	lcdPrintln("-5MHz    0    +5MHz");
	lcdDisplay();
}
示例#24
0
/**
 * Timer 2 interrupt handler
 */
void tim2_irq_handler(void)
{

	if (TIM_GetITStatus(TIM2, TIM_IT_CC1) != RESET) {
		TIM_ClearITPendingBit(TIM2, TIM_IT_CC1);

		/* prepare for next comm */
		comm_tim_data.last_capture_time = TIM_GetCapture1(TIM2);

		/* triggering commutation event */
		if (comm_tim_trigger_comm || comm_tim_trigger_comm_once) {
			TIM_GenerateEvent(TIM1, TIM_EventSource_COM);
			//TIM_GenerateEvent(TIM1, TIM_EventSource_COM | TIM_EventSource_Update);
		}

		/* (re)setting "semaphors" */
		comm_tim_trigger_comm_once = false;
		comm_tim_trigger = true;

		/* Set next comm time */
		TIM_SetCompare1(TIM2,
				comm_tim_data.last_capture_time +
				(comm_tim_data.freq * 2));
		//TIM_SetCompare1(TIM2,
		//		comm_tim_data.last_capture_time +
		//		65535);

		TOGGLE(DP_EXT_SCL);
	}

	if (TIM_GetITStatus(TIM2, TIM_IT_Update) != RESET) {
		TIM_ClearITPendingBit(TIM2, TIM_IT_Update);

		comm_tim_state.update_count++;
	}
}
示例#25
0
void next_sign() {
	TOGGLE(n->type, NEURONSIGN_MASK);
}
示例#26
0
void main_loop(void* pvParameters)
{
    int loopcount = 0;
#define SHOW_DEBUG() 0 //((my_state == RUNNING) && (loopcount == 0))


#define SPI_SCLK     4
#define SPI_MISO    27
#define SPI_MOSI     2
#define SPI_CS      GPIO_NUM_16
#define SPI_CE      GPIO_NUM_17

    int power_left = 0;
    int power_right = 0;

#if 0
    int left_x_zero = 512;
    int left_y_zero = 512;
#endif
    int right_x_zero = 512;
    int right_y_zero = 512;
    bool first_reading = true;
    
    auto last_packet = xTaskGetTickCount();

    const int NOF_BATTERY_READINGS = 100;
    int32_t battery_readings[NOF_BATTERY_READINGS];
    int battery_reading_index = 0;
    for (int i = 0; i < NOF_BATTERY_READINGS; ++i)
        battery_readings[i] = 0;

    int max_power = 255;
    
    int count = 0;
    bool led_state = false;
    auto last_led_flip = xTaskGetTickCount();
    bool is_halted = false;

    RF24 radio(SPI_CE, SPI_CS);
    assert(radio_init(radio));

	while (1)
	{
        ++loopcount;
        if (loopcount >= 100)
            loopcount = 0;

        // if there is data ready
        if (radio.available())
        {
            last_packet = xTaskGetTickCount();

            ForwardAirFrame frame;
            // Fetch the payload, and see if this was the last one.
            while (radio.available())
                radio.read(&frame, sizeof(frame));

            if (frame.magic != ForwardAirFrame::MAGIC_VALUE)
            {
                printf("Bad magic value; expected %x, got %x\n", ForwardAirFrame::MAGIC_VALUE, frame.magic);
                continue;
            }

            if (!check_crc(frame))
            {
                printf("Bad CRC\n");
                continue;
            }

            // Echo back tick value so we can compute round trip time
            radio.stopListening();

            ReturnAirFrame ret_frame;
            ret_frame.magic = ReturnAirFrame::MAGIC_VALUE;
            ret_frame.ticks = frame.ticks;
#if 0
            battery_readings[battery_reading_index] = motor_get_battery(motor_device);
            ++battery_reading_index;
            if (battery_reading_index >= NOF_BATTERY_READINGS)
                battery_reading_index = 0;
            int n = 0;
            int32_t sum = 0;
            for (int i = 0; i < NOF_BATTERY_READINGS; ++i)
                if (battery_readings[i])
                {
                    sum += battery_readings[i];
                    ++n;
                }
            // Round to nearest 0.1 V to prevent flickering
            ret_frame.battery = n ? 100*((sum/n+50)/100) : 0;
#endif
            set_crc(ret_frame);
            radio.write(&ret_frame, sizeof(ret_frame));

            radio.startListening();

            frame.right_x = 1023 - frame.right_x; // hack!

#define PUSH(bit)   (is_pushed(frame, bit) ? '1' : '0')
#define TOGGLE(bit) (is_toggle_down(frame, bit) ? 'D' : (is_toggle_up(frame, bit) ? 'U' : '-'))
                
            const int rx = frame.right_x - right_x_zero;
            const int ry = frame.right_y - right_y_zero;

            // Map right pot (0-255) to pivot value (20-51)
            const int pivot = frame.right_pot*2;
            // Map left pot (0-255) to max_power (20-255)
            max_power = static_cast<int>(20 + (256-20)/256.0*frame.left_pot);
            compute_power(rx, ry, power_left, power_right, pivot, max_power);
            ++count;
            if (count > 10)
            {
                count = 0;
                printf("max %d\n", max_power);
                printf("L %4d/%4d R %4d/%4d (%d/%d) P %3d/%3d Push %c%c%c%c"
                       " Toggle %c%c%c%c"
                       " Power %d/%d\n",
                       (int) frame.left_x, (int) frame.left_y, (int) frame.right_x, (int) frame.right_y, rx, ry,
                       int(frame.left_pot), int(frame.right_pot),
                       PUSH(0), PUSH(1), PUSH(2), PUSH(3),
                       TOGGLE(0), TOGGLE(1), TOGGLE(2), TOGGLE(3),
                       power_left, power_right);
#if 0
                if (is_toggle_up(frame, 3))
                    signal_control_lights(signal_device, true, true);
                else if (is_toggle_down(frame, 3))
                    signal_control_lights(signal_device, true, false);
                else
                    signal_control_lights(signal_device, false, true);
#endif
            }
            
            //!!set_motors(power_left, power_right);
            is_halted = false;

#if 0
            if (is_pushed(frame, 0))
                signal_play_sound(signal_device, -1);
#endif
        }
        else
        {
            // No data from radio
            const auto cur_time = xTaskGetTickCount();
            if ((cur_time - last_packet > max_radio_idle_time) && !is_halted)
            {
                is_halted = true;
                printf("HALT: Last packet was seen at %d\n", last_packet);
                first_reading = true;
                set_motors(0, 0);
            }
        }

        // Change LED state every 3 seconds
        const auto cur_time = xTaskGetTickCount();
        if (cur_time - last_led_flip > 3000/portTICK_PERIOD_MS)
        {
            last_led_flip = cur_time;
            led_state = !led_state;
            gpio_set_level(GPIO_INTERNAL_LED, led_state);
        }

        vTaskDelay(1/portTICK_PERIOD_MS);

        //xTaskNotifyWait(0, 0, NULL, 1);
    }
}
示例#27
0
文件: search.c 项目: mahyarap/nano
/* Set up the system variables for a search or replace.  If use_answer
 * is TRUE, only set backupstring to answer.  Return -2 to run the
 * opposite program (search -> replace, replace -> search), return -1 if
 * the search should be canceled (due to Cancel, a blank search string,
 * Go to Line, or a failed regcomp()), return 0 on success, and return 1
 * on rerun calling program.
 *
 * replacing is TRUE if we call from do_replace(), and FALSE if called
 * from do_search(). */
int search_init(bool replacing, bool use_answer)
{
    int i = 0;
    char *buf;
    static char *backupstring = NULL;
	/* The search string we'll be using. */

    /* If backupstring doesn't exist, initialize it to "". */
    if (backupstring == NULL)
	backupstring = mallocstrcpy(NULL, "");

    /* If use_answer is TRUE, set backupstring to answer and get out. */
    if (use_answer) {
	backupstring = mallocstrcpy(backupstring, answer);
	return 0;
    }

    /* We display the search prompt below.  If the user types a partial
     * search string and then Replace or a toggle, we will return to
     * do_search() or do_replace() and be called again.  In that case,
     * we should put the same search string back up. */

    focusing = TRUE;

    if (last_search[0] != '\0') {
	char *disp = display_string(last_search, 0, COLS / 3, FALSE);

	buf = charalloc(strlen(disp) + 7);
	/* We use (COLS / 3) here because we need to see more on the line. */
	sprintf(buf, " [%s%s]", disp,
		(strlenpt(last_search) > COLS / 3) ? "..." : "");
	free(disp);
    } else
	buf = mallocstrcpy(NULL, "");

    /* This is now one simple call.  It just does a lot. */
    i = do_prompt(FALSE,
#ifndef DISABLE_TABCOMP
	TRUE,
#endif
	replacing ? MREPLACE : MWHEREIS, backupstring,
#ifndef DISABLE_HISTORIES
	&search_history,
#endif
	/* TRANSLATORS: This is the main search prompt. */
	edit_refresh, "%s%s%s%s%s%s", _("Search"),
#ifndef NANO_TINY
	/* TRANSLATORS: The next three strings are modifiers of the search prompt. */
	ISSET(CASE_SENSITIVE) ? _(" [Case Sensitive]") :
#endif
	"",
#ifdef HAVE_REGEX_H
	ISSET(USE_REGEXP) ? _(" [Regexp]") :
#endif
	"",
#ifndef NANO_TINY
	ISSET(BACKWARDS_SEARCH) ? _(" [Backwards]") :
#endif
	"", replacing ?
#ifndef NANO_TINY
	/* TRANSLATORS: The next two strings are modifiers of the search prompt. */
	openfile->mark_set ? _(" (to replace) in selection") :
#endif
	_(" (to replace)") : "", buf);

    fflush(stderr);

    /* Release buf now that we don't need it anymore. */
    free(buf);

    free(backupstring);
    backupstring = NULL;

    /* Cancel any search, or just return with no previous search. */
    if (i == -1 || (i < 0 && *last_search == '\0') || (!replacing &&
	i == 0 && *answer == '\0')) {
	statusbar(_("Cancelled"));
	return -1;
    } else {
	functionptrtype func = func_from_key(&i);

	if (i == -2 || i == 0 ) {
#ifdef HAVE_REGEX_H
		/* Use last_search if answer is an empty string, or
		 * answer if it isn't. */
		if (ISSET(USE_REGEXP) && !regexp_init((i == -2) ?
			last_search : answer))
		    return -1;
#endif
		;
#ifndef NANO_TINY
	} else if (func == case_sens_void) {
		TOGGLE(CASE_SENSITIVE);
		backupstring = mallocstrcpy(backupstring, answer);
		return 1;
	} else if (func == backwards_void) {
		TOGGLE(BACKWARDS_SEARCH);
		backupstring = mallocstrcpy(backupstring, answer);
		return 1;
#endif
#ifdef HAVE_REGEX_H
	} else if (func == regexp_void) {
		TOGGLE(USE_REGEXP);
		backupstring = mallocstrcpy(backupstring, answer);
		return 1;
#endif
	} else if (func == do_replace || func == flip_replace_void) {
		backupstring = mallocstrcpy(backupstring, answer);
		return -2;	/* Call the opposite search function. */
	} else if (func == do_gotolinecolumn_void) {
		do_gotolinecolumn(openfile->current->lineno,
			openfile->placewewant + 1, TRUE, TRUE);
				/* Put answer up on the statusbar and
				 * fall through. */
		return 3;
	} else {
		return -1;
	}
    }

    return 0;
}
示例#28
0
void exti0_irq_handler(void)
{
	TOGGLE(LED_BLUE);

    EXTI_ClearITPendingBit(EXTI_Line0);
}
示例#29
0
文件: main.c 项目: miloh/f1rmware
void sys_tick_handler(void) {
    incTimer();
    static int ctr=0;
    if (++ctr%50==1)
        TOGGLE(LED2);
};
示例#30
0
void do_clan (CHAR_DATA *ch, char *argument, int cmd)
{
	int					zone;
	int					leader_obj_vnum;
	int					member_obj_vnum;
	int					new_flags;
	int					clan_flags;
	int					num_clans = 0;
	int					i;
	NAME_SWITCH_DATA	*name_switch;
	NAME_SWITCH_DATA	*nsp;
	OBJ_DATA			*obj;
	CLAN_DATA			*clan;
	CLAN_DATA			*delete_clan;
	CHAR_DATA			*edit_mob = NULL;
	CHAR_DATA			*tch;
	char				*p;
	char				buf [MAX_STRING_LENGTH] = {'\0'};
	char				clan_name [MAX_STRING_LENGTH] = {'\0'};
	char				oldname [MAX_STRING_LENGTH] = {'\0'};
	char				newname [MAX_STRING_LENGTH] = {'\0'};
	char				literal [MAX_STRING_LENGTH] = {'\0'};
	char				name [MAX_STRING_LENGTH] = {'\0'};
	char				*the_clans [MAX_CLANS] = {'\0'};

	if ( IS_NPC (ch) ) {
		send_to_char ("Sorry, but you can't do this while switched...\n", ch);
		return;
	}

	if ( !*argument ) {

		send_to_char ("Old clan name   ->  New clan name\n", ch);
		send_to_char ("=============       =============\n", ch);

		if ( !clan_name_switch_list )
			send_to_char ("No clans set to be renamed.\n", ch);

		else {
			for ( nsp = clan_name_switch_list; nsp; nsp = nsp->next ) {
				snprintf (buf, MAX_STRING_LENGTH,  "%-15s     %-15s\n", nsp->old_name, nsp->new_name);
				send_to_char (buf, ch);
			}
		}

		send_to_char ("\nClan Name        Full Clan Name\n", ch);
		send_to_char ("===============  =================================\n",
					  ch);

		for ( clan = clan_list; clan; clan = clan->next ) {
			snprintf (buf, MAX_STRING_LENGTH,  "%-15s  %s\n", clan->name, clan->literal);
			send_to_char (buf, ch);

			if ( clan->zone ) {
				snprintf (buf, MAX_STRING_LENGTH,  "                 Enforcement Zone %d\n",
							  clan->zone);
				send_to_char (buf, ch);
			}

			if ( clan->member_vnum ) {
				obj = vtoo (clan->member_vnum);
				snprintf (buf, MAX_STRING_LENGTH,  "                 Member Object (%05d):  %s\n",
					clan->member_vnum,
					obj ? obj->short_description : "UNDEFINED");
				send_to_char (buf, ch);
			}

			if ( clan->leader_vnum ) {
				obj = vtoo (clan->leader_vnum);
				snprintf (buf, MAX_STRING_LENGTH,  "                 Leader Object (%05d):  %s\n",
					clan->leader_vnum,
					obj ? obj->short_description : "UNDEFINED");
				send_to_char (buf, ch);
			}
		}

		return;
	}

	argument = one_argument (argument, buf);

	if ( !*buf || *buf == '?' ) {
		send_to_char ("Syntax for modifying PCs:\n\n", ch);
		send_to_char ("   clan set <clan-name> [<clan-flags>]\n", ch);
		send_to_char ("   clan remove <clan-name>         (or all)\n", ch);
        send_to_char ("\nSyntax for modifying clan definitions:\n", ch);
		send_to_char ("   clan rename <oldclanname> <newclanname>\n", ch);
		send_to_char ("   clan unrename <oldclanname> <newclanname>\n", ch);
		send_to_char ("   clan register <name> <enforcement zone> <long name> "
					  "[<leader obj>] [<member obj>]\n", ch);
		send_to_char ("   clan unregister <name>\n", ch);
		send_to_char ("   clan list\n", ch);
		send_to_char ("\nThe obj vnums are optional.  Specify zone 0 if no "
					  "enforcement zone.\n\nExamples:\n", ch);
		send_to_char ("  > clan set tashalwatch member leader\n", ch);
		send_to_char ("  > clan remove tashalwatch\n", ch);
		send_to_char ("  > clan register TashalWatch 10 'Tashal Watch'\n", ch);
		send_to_char ("  > clan unregister tashalwatch\n", ch);
		send_to_char ("  > clan rename 10 TashalWatch\n", ch);
		send_to_char ("  > clan unrename 10 TashalWatch\n", ch);
		send_to_char ("  > clan list\n", ch);
		return;
	}

	if ( !str_cmp (buf, "list") ) {

		for ( tch = character_list; tch; tch = tch->next ) {

			if ( tch->deleted )
				continue;

			p = tch->clans;

			if ( !p || !*p )
				continue;

			while ( get_next_clan (&p, clan_name, &clan_flags) ) {

				if ( num_clans > MAX_CLANS )		/* Too many in list */
					break;

				for ( i = 0; i < num_clans; i++ )
					if ( !str_cmp (clan_name, the_clans [i]) )
						break;

				if ( i >= num_clans )
					the_clans [num_clans++] = str_dup (clan_name);
			}

		}

		*b_buf = '\0';

		for ( i = 0; i < num_clans; i++ ) {

			snprintf (b_buf + strlen(b_buf), MAX_STRING_LENGTH, "%-15s", the_clans [i]);

			if ( i % 5 == 4 )
				strcat (b_buf, "\n");
			else
				strcat (b_buf, " ");
		}

		page_string (ch->desc, b_buf);

		return;
	}

	if ( !str_cmp (buf, "set") ||
		 !str_cmp (buf, "remove") ||
		 !str_cmp (buf, "delete") ) {

		if ( (!ch->pc->edit_mob && !ch->pc->edit_player) ||
			(!(edit_mob = vtom (ch->pc->edit_mob)) &&
			!(edit_mob = ch->pc->edit_player)) ) {
			send_to_char ("Start by using the MOBILE command.\n", ch);
			return;
		}
	}

	if ( !str_cmp (buf, "set") ) {

		argument = one_argument (argument, clan_name);

		if ( !*clan_name ) {
			send_to_char ("Expected a clan name after 'add'.\n", ch);
			return;
		}

		new_flags = clan_flags_to_value (argument);

		if ( get_clan (edit_mob, clan_name, &clan_flags) )
			remove_clan (edit_mob, clan_name);

		clan_flags = 0;

		while ( 1 ) {

			argument = one_argument (argument, buf);

			if ( !*buf )
				break;

			if ( !str_cmp (buf, "member") )
				TOGGLE (clan_flags, CLAN_MEMBER)		/* {}'s define     */
			else if ( !str_cmp (buf, "leader") )        /* so no ; needed  */
				TOGGLE (clan_flags, CLAN_LEADER)
			else if ( !str_cmp (buf, "recruit") )
				TOGGLE (clan_flags, CLAN_RECRUIT)
			else if ( !str_cmp (buf, "private") )
				TOGGLE (clan_flags, CLAN_PRIVATE)
			else if ( !str_cmp (buf, "corporal") )
				TOGGLE (clan_flags, CLAN_CORPORAL)
			else if ( !str_cmp (buf, "sergeant") )
				TOGGLE (clan_flags, CLAN_SERGEANT)
			else if ( !str_cmp (buf, "lieutenant") )
				TOGGLE (clan_flags, CLAN_LIEUTENANT)
			else if ( !str_cmp (buf, "captain") )
				TOGGLE (clan_flags, CLAN_CAPTAIN)
			else if ( !str_cmp (buf, "general") )
				TOGGLE (clan_flags, CLAN_GENERAL)
			else if ( !str_cmp (buf, "commander") )
				TOGGLE (clan_flags, CLAN_COMMANDER)
			else if ( !str_cmp (buf, "apprentice") )
				TOGGLE (clan_flags, CLAN_APPRENTICE)
			else if ( !str_cmp (buf, "journeyman") )
				TOGGLE (clan_flags, CLAN_JOURNEYMAN)
			else if ( !str_cmp (buf, "master") )
				TOGGLE (clan_flags, CLAN_MASTER)
			else {
				snprintf (literal, MAX_STRING_LENGTH, "Flag %s is unknown for clans.\n", buf);
				send_to_char (literal, ch);
			}
		}
	
		if ( !clan_flags )
			clan_flags = CLAN_MEMBER;

		add_clan (edit_mob, clan_name, clan_flags);

		if ( edit_mob->mob ) {
			snprintf (buf, MAX_STRING_LENGTH,  "%d mobile(s) in world redefined.\n",
						  redefine_mobiles (edit_mob));
			send_to_char (buf, ch);
		}

		return;		/* Return from n/pc specific uses of clan */
	}