#include "SWM221.h"


void SerialInit(void);
void TestSignal(void);

int main(void)
{	
	SystemInit();
	
	SerialInit();
	
	TestSignal();	//产生测试信号供Input Capture功能测量
	
	PORT_Init(PORTA, PIN14, PORTA_PIN14_TIMR0_IN, 1);
	
	TIMR_Init(TIMR0, TIMR_MODE_IC, CyclesPerUs, 10000000, 0);	//最大测量脉宽1us*10_000_000 = 10s
	
	TIMR_IC_Init(TIMR0, 1, 1);
	
	TIMR_Start(TIMR0);
	
	while(1==1)
	{
	}
}


void TestSignal(void)
{
	PWM_InitStructure  PWM_initStruct;
	
	PORT_Init(PORTA, PIN3, PORTA_PIN3_PWM0A,  0);
	
	PWM_initStruct.Mode = PWM_EDGE_ALIGNED;
	PWM_initStruct.Clkdiv = 60;					//F_PWM = 60M/60 = 1M
	PWM_initStruct.Period = 10000;				//1M/10000 = 100Hz
	PWM_initStruct.HdutyA =  2500;				//2500/10000 = 25%，高电平脉宽2.5ms，低电平脉宽7.5ms
	PWM_initStruct.DeadzoneA =  0;
	PWM_initStruct.IdleLevelA = 0;
	PWM_initStruct.IdleLevelAN= 0;
	PWM_initStruct.OutputInvA = 0;
	PWM_initStruct.OutputInvAN= 0;
	PWM_initStruct.HdutyB =  7500;				//5000/10000 = 50%
	PWM_initStruct.DeadzoneB =  0;
	PWM_initStruct.IdleLevelB = 0;
	PWM_initStruct.IdleLevelBN= 0;
	PWM_initStruct.OutputInvB = 0;
	PWM_initStruct.OutputInvBN= 0;
	PWM_initStruct.UpOvfIE    = 0;
	PWM_initStruct.DownOvfIE  = 0;
	PWM_initStruct.UpCmpAIE   = 0;
	PWM_initStruct.DownCmpAIE = 0;
	PWM_initStruct.UpCmpBIE   = 0;
	PWM_initStruct.DownCmpBIE = 0;
	PWM_Init(PWM0, &PWM_initStruct);
	PWM_Init(PWM1, &PWM_initStruct);
	
	PWM_Start(PWM0_MSK);
}


void TIMR0_Handler(void)
{
	if(TIMR_IC_CaptureH_INTStat(TIMR0))
	{
		TIMR_IC_CaptureH_INTClr(TIMR0);
		
		printf("H: %dus\r\n", TIMR_IC_GetCaptureH(TIMR0));
	}
	else if(TIMR_IC_CaptureL_INTStat(TIMR0))
	{
		TIMR_IC_CaptureL_INTClr(TIMR0);
		
		printf("L: %dus\r\n", TIMR_IC_GetCaptureL(TIMR0));
	}
}


void SerialInit(void)
{
	UART_InitStructure UART_initStruct;
	
	PORT_Init(PORTA, PIN0, PORTA_PIN0_UART0_RX, 1);	//GPIOA.0配置为UART0 RXD
	PORT_Init(PORTA, PIN1, PORTA_PIN1_UART0_TX, 0);	//GPIOA.1配置为UART0 TXD
 	
 	UART_initStruct.Baudrate = 57600;
	UART_initStruct.DataBits = UART_DATA_8BIT;
	UART_initStruct.Parity = UART_PARITY_NONE;
	UART_initStruct.StopBits = UART_STOP_1BIT;
	UART_initStruct.RXThreshold = 3;
	UART_initStruct.RXThresholdIEn = 0;
	UART_initStruct.TXThreshold = 3;
	UART_initStruct.TXThresholdIEn = 0;
	UART_initStruct.TimeoutTime = 10;
	UART_initStruct.TimeoutIEn = 0;
 	UART_Init(UART0, &UART_initStruct);
	UART_Open(UART0);
}

/****************************************************************************************************************************************** 
* 函数名称: fputc()
* 功能说明: printf()使用此函数完成实际的串口打印动作
* 输    入: int ch		要打印的字符
*			FILE *f		文件句柄
* 输    出: 无
* 注意事项: 无
******************************************************************************************************************************************/
int fputc(int ch, FILE *f)
{
	UART_WriteByte(UART0, ch);
	
	while(UART_IsTXBusy(UART0));
 	
	return ch;
}