#include "power_manage.h"
#include "adc.h"
#include "stdlib.h"
#include "uart.h"
#include "extern_rtc.h"
#include "lcd.h"
#include "gpio.h"
#include "lcd.h"
#include "tim.h"
#include "sizhu_ctrl_word.h"
#include "system_run_fun.h"

PWR_VOL_T pwr_vol_g = {LMS_PERIOD, AMS_PERIOD, SET,.lith_vcc_per = 100}; // ĬÈÏÉϵç²É¼¯Ò»´ÎµçÁ¿ºÍMCUζÈ


uint8_t first_power_get_cnt_g = 0;


void Power_IO_Init(void)
{
	CMU_PERCLK_SetableEx(PADCLK, ENABLE);  //PADʱÖÓ£¨GPIO£©Ê¹Äܺ¯Êý
	OutputIO(LITHIUM_DETECTION_PORT,LITHIUM_DETECTION_PIN,OUT_PUSHPULL);
	InputtIO( LITH_PWR_LOSE_PORT, LITH_PWR_LOSE_PIN, IN_NORMAL);

	
	OutputIO(ALKALI_DETECTION_PORT,ALKALI_DETECTION_PIN,OUT_PUSHPULL);
	InputtIO_H(  ALKALI_PWR_LOSE_PIN, IN_NORMAL);
		
	ALK_DEC_OFF;
	LIT_DEC_OFF;
	
	OutputIO(BORROW_PWR_PORT,BORROW_PWR_PIN,OUT_PUSHPULL);
	OutputIO(EX_PWR_EN_PORT,EX_PWR_EN_PIN,OUT_PUSHPULL);
	BORROW_PWR_OFF;
	EX_PWR_OFF;
}

void Lith_Battery_GPIO_Clk_Init(void)
{
	CMU_PERCLK_SetableEx(PADCLK, ENABLE);  //PADʱÖÓ£¨GPIO£©Ê¹Äܺ¯Êý
	AnalogIO(LIT_ADC_PORT,LIT_ADC_PIN);//ADC_IN4
	OutputIO(LITHIUM_DETECTION_PORT,LITHIUM_DETECTION_PIN,OUT_PUSHPULL);
//	AnalogIO(LIT_PWR_UNDER_PORT,LIT_PWR_UNDER_PIN);//ADC_5
	
}

void Alka_Battery_GPIO_Clk_Init(void)
{
	CMU_PERCLK_SetableEx(PADCLK, ENABLE);  //PADʱÖÓ£¨GPIO£©Ê¹Äܺ¯Êý
	AnalogIO_H(ALK_ADC_PIN);
	OutputIO(ALKALI_DETECTION_PORT,ALKALI_DETECTION_PIN,OUT_PUSHPULL);
}

/******************************************
 * func:    Get_vol_Average
 * desc:
 *   - sample total 100 data,list data from low to hign,get middle 64 data
 *   - calculation sample mean of 64 middle data
 * input:
 *   ch       - select sample channel of adc1
 *   vref_adc - Voltage reference of adc1 multiply by 1000. eg:3.3v ->33000
 * output:  none
 * return:  calculation sample mean of 64 middle data,multiply by 1000. eg:1.0v -> 1000
 *****************************************/
uint32_t Get_vol_Average(ad_data_s *data_p)
{
  u32 i, j, t;
  uint32_t temp;
  uint32_t temp_vol = 0;

  for (i = 0; i < data_p->ad_buffer_cnt; i++)
  {
    data_p->ad_get_buffer[i] = Get_AdcValue();
  }

  for (i = 0; i < data_p->ad_buffer_cnt; i++)
  {
    for (j = (i + 1); j < data_p->ad_buffer_cnt; j++)
      if (data_p->ad_get_buffer[j] < data_p->ad_get_buffer[i])
      {
        temp = data_p->ad_get_buffer[j];
        data_p->ad_get_buffer[j] = data_p->ad_get_buffer[i];
        data_p->ad_get_buffer[i] = temp;
      }
  }

  for (t = 1; t < (data_p->ad_buffer_cnt - 1); t++)
  {
    temp_vol += data_p->ad_get_buffer[t];
  }
  temp_vol = temp_vol / (data_p->ad_buffer_cnt - 2);
  return temp_vol;
}

/******************************************
 * func:    get_alka_bat_voltage
 * desc:    Get alka ADC data
 * input:   none
 * output:  none
 * return:  none
 *****************************************/
float Get_Alka_Bat_Voltage(void)
{
  uint32_t volt_ret;
  float sample_vol;
  float battery_vol = 0;
  ad_data_s *data_ins;
	Alka_Battery_GPIO_Clk_Init();
	ADC_IN8_Init();
  ALK_DEC_ON;
//  delay_ms(10);
  // ÉêÇëÈáÐÔÊý×éÄÚ´æ¿Õ¼ä
  if ((data_ins = (ad_data_s *)malloc(sizeof(ad_data_s) + sizeof(uint16_t) * AD_ALKA_BAT_CNT)) != NULL)
  {
    data_ins->ad_buffer_cnt = AD_ALKA_BAT_CNT;
    data_ins->ad_ch = AD_ALKA_BAT_CH;
    volt_ret = Get_vol_Average(data_ins); 

		sample_vol = (float)volt_ret * 0.001;
		battery_vol = sample_vol * ALKA_VOL_COE;
    ALK_DEC_OFF;
    /*ÊÍ·ÅÄÚ´æ*/
    free(data_ins);
    data_ins = NULL;
  }
  ADC_CR_EN_Setable(DISABLE);
  return battery_vol;
}
/******************************************
 * func:    get_lith_bat_voltage
 * desc:    Get lith_bat ADC data
 * input:   none
 * output:  none
 * return:  none
 *****************************************/
float Get_Lith_Bat_Voltage(void)
{
  uint32_t volt_ret;
  float sample_vol;
  float battery_vol = 0;
  ad_data_s *data_ins;
	Lith_Battery_GPIO_Clk_Init();
	ADC_IN4_Init();
  LIT_DEC_ON;
//  delay_ms(10);
  if ((data_ins = (ad_data_s *)malloc(sizeof(data_ins) + sizeof(uint16_t) * AD_LITH_BAT_CNT)) != NULL)
  {
    data_ins->ad_buffer_cnt = AD_LITH_BAT_CNT;
    data_ins->ad_ch = AD_LITH_BAT_CH;
    volt_ret = Get_vol_Average(data_ins);
		sample_vol = (float)volt_ret * 0.001;
		battery_vol = sample_vol * LITH_VOL_COE;
    LIT_DEC_OFF;
    /*ÊÍ·ÅÄÚ´æ*/
    free(data_ins);
    data_ins = NULL;
  }
  ADC_CR_EN_Setable(DISABLE);
  return battery_vol;
}

//float Get_PF6_Bat_Voltage(void)
//{
//	uint32_t volt_ret;
//  float sample_vol;
//  float battery_vol = 0;
//  ad_data_s *data_ins;
//	Lith_Battery_GPIO_Clk_Init();
//	ADC_IN5_Init();
//  if ((data_ins = (ad_data_s *)malloc(sizeof(data_ins) + sizeof(uint16_t) * AD_LITH_PF6_BAT_CNT)) != NULL)
//  {
//    data_ins->ad_buffer_cnt = AD_LITH_PF6_BAT_CNT;
//    data_ins->ad_ch = AD_LITH_PF6_BAT_CH;
//    volt_ret = Get_vol_Average(data_ins);
//		sample_vol = (float)volt_ret * 0.001;
//		battery_vol = sample_vol * LITH_PF6_VOL_COE;
//    /*ÊÍ·ÅÄÚ´æ*/
//    free(data_ins);
//    data_ins = NULL;
//  }
//  ADC_CR_EN_Setable(DISABLE);
//  return battery_vol;
//}


float Get_Mcu_Temp(void)
{
  ad_data_s *data_ins_vtem;
  float temperature;
	ADC_Temp_Init();

  if ((data_ins_vtem = (ad_data_s *)malloc(sizeof(ad_data_s) + sizeof(uint16_t) * AD_VTEM_CNT)) != NULL)
  {
    data_ins_vtem->ad_buffer_cnt = AD_VTEM_CNT;
    // data_ins_vtem->ad_ch = AD_VTEM_CH;                  //ûÄñÓÃ
    temperature = Get_AdcTempValue(); // »ñȡζȵçѹֵ,¿ªÆôζÈADC
    /*ÊÍ·ÅÄÚ´æ*/
    free(data_ins_vtem);
    data_ins_vtem = NULL;
  }
  ADC_CR_EN_Setable(DISABLE);
  return temperature;
}


/*µç³Øµçѹ״̬ÅжÏ*/
#define LITH_LOW_EFFECTIVE_VOLTAGE_VALUE (3.2f - 2.9f)
void Lith_Bat_Voltage_Status(float lith_vcc,int8_t * pLith_vcc_per)
{

    
}

void Alka_Bat_Voltage_Status(float alka_vcc)
{

}




/*»ñµÃµç³Øµçѹ*/
void GetBatVoltagePro(PWR_VOL_T *pwr_vol_p)
{
	const uint16_t 	DELAY_TIME = 5;
	static uint16_t delay_time_cnt = 0;	
	
	/*¸ß¹¦ºÄ¹¦ÄÜÔËÐнáÊøÖ®ºóÑÓʱһ¶¨Ê±¼äÔÙ¼ì²âµç³Ø*/
	if((sys_fun_run_ctrl_g.rs485_ctrl_flag.running_flag == RESET)&&(sys_fun_run_ctrl_g.wrc_ctrl_flag.running_flag == RESET)&&(sys_fun_run_ctrl_g.valve_ctrl_flag.running_flag == RESET)){
		if(delay_time_cnt < DELAY_TIME) delay_time_cnt ++;
	}
	else
		delay_time_cnt = 0;
	
  /*﮵ç¼îµçÖÜÆÚ´¥·¢*/ //Ôݶ¨¼òµ¥´¦Àí£¬Ò»Ìì¼ì²âÒ»´Î
	if((sys_clockBCD_g.hour == 23)&&(sys_clockBCD_g.min == 57)&&(sys_clockBCD_g.sec == 57)){
		pwr_vol_p->lith_flag = LMS_PERIOD;
		pwr_vol_p->alka_flag = AMS_PERIOD;
	}
	
	/*MCUζÈÖÜÆÚÐÔ¼ì²â*/ //Ôݶ¨Ã¿Ð¡Ê±¼ì²âÒ»´Î
	if((sys_clockBCD_g.min == 57)&&(sys_clockBCD_g.sec == 58))
		pwr_vol_p->mcu_temp_flag = SET;
	
	
	if(pwr_vol_p->lith_flag != LMS_NONE ){
		pwr_vol_p->lith_flag = LMS_NONE;
		pwr_vol_p->lith_vcc = Get_Lith_Bat_Voltage();//﮵ç¼ì²â
	}
	
	if((pwr_vol_p->alka_flag != LMS_NONE)&&(delay_time_cnt >= DELAY_TIME) ){
		pwr_vol_p->alka_flag = AMS_PERIOD;
		pwr_vol_p->alka_vcc = Get_Alka_Bat_Voltage();//¼îµç¼ì²â
	}
	
	if(pwr_vol_p->mcu_temp_flag == SET){
		pwr_vol_p->mcu_temp_flag = RESET;
		pwr_vol_p->mcu_temperature = Get_Mcu_Temp();//mcuζȻñÈ¡
	}
	

}