#ifndef __KC_FEATURES_H__
#define __KC_FEATURES_H__

#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include "sys.h"
#include "CDZ_State.h"
#include "KC.h"

#ifndef   __STATIC_INLIN
  #define __STATIC_INLIN                        static __inline
#endif
	
void OPEN_AC_RELAY(void);
void CLOSE_AC_RELAY(void);

void KC_ACtEXT_Open(void);
void KC_ACtEXT_Close(void);
void OPEN_12VPowerRealy(void);
void CLOSE_12VPowerRealy(void);

void Signal_Filtering(void);
	
//直流继电器
__STATIC_INLIN bool OPEN_DC_RELAY(void)
{
	DCU_SendState.DC_Relay_State = 1;
	printf("OPEN_DCRealy\r\n");
  return KC_Set_GPIO(&GetDEVICE_Name(KC1));
}
__STATIC_INLIN bool CLOSE_DC_RELAY(void)
{
  DCU_SendState.DC_Relay_State = 0;
	printf("CLOSE_DCRealy\r\n");
	return KC_ReSet_GPIO(&GetDEVICE_Name(KC1));
}	

//高压模块输出继电器
__STATIC_INLIN bool OPEN_HV_RELAY(void)
{
  return KC_Set_GPIO(&GetDEVICE_Name(KC2));
}
__STATIC_INLIN bool CLOSE_HV_RELAY(void)
{
  return KC_ReSet_GPIO(&GetDEVICE_Name(KC2));
}	

//CC1-CP继电器
__STATIC_INLIN bool OPEN_CC1_CP_RELAY(void)
{
	DCU_SendState.CP_CC1_State = 1;
  return KC_Set_GPIO(&GetDEVICE_Name(KC3));
}
__STATIC_INLIN bool CLOSE_CC1_CP_RELAY(void)
{
	DCU_SendState.CP_CC1_State = 0;
  return KC_ReSet_GPIO(&GetDEVICE_Name(KC3));
}	

//主从芯片切换电阻采样
__STATIC_INLIN bool OPEN_32_L0_RELAY(void)
{
  return KC_Set_GPIO(&GetDEVICE_Name(KC4));
}
__STATIC_INLIN bool CLOSE_32_L0_RELAY(void)
{
  return KC_ReSet_GPIO(&GetDEVICE_Name(KC4));
}	

//辅助升压
__STATIC_INLIN bool OPEN_AUXI_BOOT(void)
{
  return KC_Set_GPIO(&GetDEVICE_Name(KC5));
}
__STATIC_INLIN bool CLOSE_AUXI_BOOT(void)
{
  return KC_ReSet_GPIO(&GetDEVICE_Name(KC5));
}	

//CC2-CC继电器
__STATIC_INLIN bool OPEN_CC2_CC_RELAY(void)
{
	DCU_SendState.CC_CC2_State = 1;
  return KC_Set_GPIO(&GetDEVICE_Name(KC8));
}
__STATIC_INLIN bool CLOSE_CC2_CC_RELAY(void)
{
	DCU_SendState.CC_CC2_State = 0;
  return KC_ReSet_GPIO(&GetDEVICE_Name(KC8));
}	

//枪座温度
__STATIC_INLIN bool OPEN_GUN_TEMP_RELAY(void)
{
	DCU_SendState.L_Relay_State = 1;
  return KC_Set_GPIO(&GetDEVICE_Name(KC9));
}
__STATIC_INLIN bool CLOSE_GUN_TEMP_RELAY(void)
{
	DCU_SendState.L_Relay_State = 0;
  return KC_ReSet_GPIO(&GetDEVICE_Name(KC9));
}
 
//电源域3.3V,灯,蓝牙
__STATIC_INLIN bool OPEN_PW3_3V(void)
{
  return KC_Set_GPIO(&GetDEVICE_Name(PW3_3V));
}
__STATIC_INLIN bool CLOSE_PW3_3V(void)
{
  return KC_ReSet_GPIO(&GetDEVICE_Name(PW3_3V));
}

//5V电源域
__STATIC_INLIN bool OPEN_PW5V(void)
{
  return KC_Set_GPIO(&GetDEVICE_Name(PW5V));
}
__STATIC_INLIN bool CLOSE_PW5V(void)
{
  return KC_ReSet_GPIO(&GetDEVICE_Name(PW5V));
}

//运行指示灯
__STATIC_INLIN bool OPEN_MCU_RUN(void)
{
  return KC_Set_GPIO(&GetDEVICE_Name(MCU_RUN));
}
__STATIC_INLIN bool CLOSE_MCU_RUN(void)
{
  return KC_ReSet_GPIO(&GetDEVICE_Name(MCU_RUN));
}

//高压互锁检测
__STATIC_INLIN enum KC_state READ_HV_DSG_CHECJ(void)
{
  return KC_Read_GPIO(&GetDEVICE_Name(HV_DSG_CHECJ));
}
__STATIC_INLIN enum KC_state READ_HV_DSG_CHECJ_2(void)
{
  return KC_Read_GPIO(&GetDEVICE_Name(HV_DSG_CHECJ_2));
}

//交流回检信号
__STATIC_INLIN enum KC_state READ_AC_YX1(void)
{
  return KC_Read_GPIO(&GetDEVICE_Name(YX1));
}

//直流回检信号
__STATIC_INLIN enum KC_state READ_DC_YX2(void)
{
  return KC_Read_GPIO(&GetDEVICE_Name(YX2));
}
#endif