#include "SEG_DISPLAY\SEG_DISPLAY.h"
#include "GPIO_USER\GpioUser.h"
#include "Application.h"
#define Clr_Bit(p, b) (p) &= (~(1u << (b)))
#define Set_Bit(p, b) (p) |= (1u << (b))
#define Bit_Is_Set(p, b) ((p) & (1u << (b)))
#define Bit_Is_Clr(p, b) (!((p) & (1u << (b))))
uint8_t DTC_DISCount = 0;
uint32_t Current_DTC_CODE = 0;
uint32_t Current_DTC_CODE_BACK = 0;
uint8_t DTC_DISTimer = 0;
/*数字显示数组*/ /*0, 1 2 3 4 5 6 7 8 9 null - P A b C d E F*/
const uint8_t SEG_DISPLAY_NUMBER0[] = {0x3Fu, 0x06u, 0x5Bu, 0x4Fu, 0x66u, 0x6Du, 0x7Du, 0x07u, 0x7Fu, 0x6Fu, 0x00, 0x40, 0x73, 0x77, 0x7C, 0x39, 0x5E, 0x79, 0x71};
const uint8_t SEG_UNDISPLAY_NUMBER0[] = {0x00u, 0x06u, 0x5Bu, 0x4Fu, 0x66u, 0x6Du, 0x7Du, 0x07u, 0x7Fu, 0x6Fu};
void SEG_SET_DTC_NUM(uint32_t num)
{
uint32_t Num = 0;
uint8_t m8 = 0;
Num = (num & 0xFF000000) >> 24;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG064 = IC_SEG_ON;
}
else
{
IC1_SEG064 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG063 = IC_SEG_ON;
}
else
{
IC1_SEG063 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG061 = IC_SEG_ON;
}
else
{
IC1_SEG061 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG067 = IC_SEG_ON;
}
else
{
IC1_SEG067 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG066 = IC_SEG_ON;
}
else
{
IC1_SEG066 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG065 = IC_SEG_ON;
}
else
{
IC1_SEG065 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG062 = IC_SEG_ON;
}
else
{
IC1_SEG062 = IC_SEG_OFF;
}
Num = (num & 0xFF0000) >> 16;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG057 = IC_SEG_ON;
}
else
{
IC1_SEG057 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG056 = IC_SEG_ON;
}
else
{
IC1_SEG056 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG054 = IC_SEG_ON;
}
else
{
IC1_SEG054 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG060 = IC_SEG_ON;
}
else
{
IC1_SEG060 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG059 = IC_SEG_ON;
}
else
{
IC1_SEG059 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG058 = IC_SEG_ON;
}
else
{
IC1_SEG058 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG055 = IC_SEG_ON;
}
else
{
IC1_SEG055 = IC_SEG_OFF;
}
Num = (num & 0xFF00) >> 8;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG050 = IC_SEG_ON;
}
else
{
IC1_SEG050 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG049 = IC_SEG_ON;
}
else
{
IC1_SEG049 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG047 = IC_SEG_ON;
}
else
{
IC1_SEG047 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG053 = IC_SEG_ON;
}
else
{
IC1_SEG053 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG052 = IC_SEG_ON;
}
else
{
IC1_SEG052 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG051 = IC_SEG_ON;
}
else
{
IC1_SEG051 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG048 = IC_SEG_ON;
}
else
{
IC1_SEG048 = IC_SEG_OFF;
}
Num = num & 0xFF;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG042 = IC_SEG_ON;
}
else
{
IC1_SEG042 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG041 = IC_SEG_ON;
}
else
{
IC1_SEG041 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG039 = IC_SEG_ON;
}
else
{
IC1_SEG039 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG038 = IC_SEG_ON;
}
else
{
IC1_SEG038 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG044 = IC_SEG_ON;
}
else
{
IC1_SEG044 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG043 = IC_SEG_ON;
}
else
{
IC1_SEG043 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG040 = IC_SEG_ON;
}
else
{
IC1_SEG040 = IC_SEG_OFF;
}
}
/**@brief 指示灯显示函数
* @param[in] m_Flag 是否显示 -1 显示 -0 不显示
*/
void SEG_SET_LED_STS(uint8_t LED_NUM, uint8_t m_Flag)
{
uint8_t Flag;
uint8_t Num;
if (m_Flag == 0u)
{
Flag = IC_SEG_OFF;
}
else
{
Flag = IC_SEG_ON;
}
switch (LED_NUM)
{
case em_SEG_High_Beam:
IC2_SEG052 = Flag;
break;
case em_SEG_FAULT_ELECTROSPRAY:
IC1_SEG078 = Flag;
break;
case em_SEG_ABS:
IC1_SEG143 = Flag;
break;
case em_SEG_Oil_Pressure:
IC2_SEG103 = Flag;
break;
case em_SEG_Bluetooth:
IC2_SEG129 = Flag;
break;
case em_SEG_TCS:
IC2_SEG128 = Flag;
break;
case em_SEG_Auto_Start_Stop:
IC2_SEG092 = Flag;
break;
//case em_SEG_Keys:
// IC2_SEG130 = Flag;
// break;
case em_SEG_Upkeep:
IC1_SEG077 = Flag;
break;
case em_SEG_Low_Batt_Vol:
IC1_SEG102 = Flag;
break;
case em_SEG_Lateral_Strut:
IC1_SEG119 = Flag;
break;
case em_SEG_Tire_Pressure_Alarm:
IC2_SEG127 = Flag;
break;
case em_SEG_Turn_Left:
IC2_SEG053 = Flag;
break;
case em_SEG_Turn_Right:
IC1_SEG142 = Flag;
break;
case em_SEG_Coolant:
IC1_SEG111 = Flag;
break;
case em_SEG_Fuel:
IC2_SEG099 = Flag;
break;
default:
break;
}
}
/**@brief 燃油表显示函数
* @param[in] m_Flag 段与数字是否显示 -1 显示 -0 不显示
* @param[in] m_SEG 燃油表盘段数0<=m_SEG<=5
*/
void SEG_SET_FuelDial(uint8_t m_Flag, uint8_t m_SEG)
{
if (m_Flag == 1u)
{
IC2_SEG107 = IC_SEG_ON;
IC2_SEG106 = IC_SEG_GREY;
IC2_SEG105 = IC_SEG_GREY;
IC2_SEG104 = IC_SEG_GREY;
IC2_SEG102 = IC_SEG_GREY;
IC2_SEG101 = IC_SEG_GREY;
if ((Get_Fuel_Sensor_State() == 2) && (ClearODO_Flag != 1) && (Common_GetIgnOnTime() >= 3000))
{
if (FLASH_SYNC_1Hz)
{
IC2_SEG106 = IC_SEG_ON;
IC2_SEG105 = IC_SEG_ON;
IC2_SEG104 = IC_SEG_ON;
IC2_SEG102 = IC_SEG_ON;
IC2_SEG101 = IC_SEG_ON;
IC2_SEG108 = IC_SEG_ON;
IC2_SEG100 = IC_SEG_ON;
}
else
{
IC2_SEG106 = IC_SEG_GREY;
IC2_SEG105 = IC_SEG_GREY;
IC2_SEG104 = IC_SEG_GREY;
IC2_SEG102 = IC_SEG_GREY;
IC2_SEG101 = IC_SEG_GREY;
IC2_SEG108 = IC_SEG_GREY;
IC2_SEG100 = IC_SEG_GREY;
}
}
else
{
if((Get_CurFuelSetp() == 0) && (Common_GetIgnOnTime() >= 3000))
{
if (FLASH_SYNC_1Hz)
{
IC2_SEG108 = IC_SEG_ON;
IC2_SEG100 = IC_SEG_ON;
}
else
{
IC2_SEG108 = IC_SEG_GREY;
IC2_SEG100 = IC_SEG_GREY;
}
}
else
{
IC2_SEG108 = IC_SEG_ON;
IC2_SEG100 = IC_SEG_ON;
}
if ((Get_CurFuelSetp() == 1) && (ClearODO_Flag != 1) && (Common_GetIgnOnTime() >= 3000))
{
IC2_SEG108 = IC_SEG_ON;
IC2_SEG100 = IC_SEG_ON;
if (FLASH_SYNC_1Hz)
{
IC2_SEG106 = IC_SEG_ON;
}
else
{
IC2_SEG106 = IC_SEG_GREY;
}
}
else
{
switch (m_SEG)
{
case 5u:
IC2_SEG101 = IC_SEG_ON;
case 4u:
IC2_SEG102 = IC_SEG_ON;
case 3u:
IC2_SEG104 = IC_SEG_ON;
case 2u:
IC2_SEG105 = IC_SEG_ON;
case 1u:
IC2_SEG106 = IC_SEG_ON;
case 0u:
break;
default:
break;
}
}
}
}
else
{
IC2_SEG108 = IC_SEG_OFF;
IC2_SEG106 = IC_SEG_OFF;
IC2_SEG105 = IC_SEG_OFF;
IC2_SEG104 = IC_SEG_OFF;
IC2_SEG102 = IC_SEG_OFF;
IC2_SEG101 = IC_SEG_OFF;
IC2_SEG107 = IC_SEG_OFF;
IC2_SEG100 = IC_SEG_OFF;
}
}
/**@brief 转速表盘显示函数
* @param[in] m_Flag 段与数字是否显示 -1 显示 -0 不显示
* @param[in] m_SEG 转速表盘段数0<=m_SEG<=24
*/
void SEG_SET_EspeedDial(uint8_t m_Flag, uint8_t m_SEG)
{
if (m_Flag == 1u)
{
IC2_SEG072 = IC_SEG_ON;
IC2_SEG073 = IC_SEG_ON;
IC2_SEG074 = IC_SEG_ON;
IC2_SEG075 = IC_SEG_ON;
IC2_SEG076 = IC_SEG_ON;
IC2_SEG079 = IC_SEG_ON;
IC2_SEG080 = IC_SEG_ON;
IC2_SEG083 = IC_SEG_ON;
IC2_SEG084 = IC_SEG_ON;
IC2_SEG086 = IC_SEG_ON;
IC2_SEG070 = IC_SEG_ON;
IC2_SEG087 = IC_SEG_ON;
IC2_SEG067 = IC_SEG_ON;
IC2_SEG088 = IC_SEG_ON;
IC2_SEG064 = IC_SEG_ON;
IC2_SEG089 = IC_SEG_ON;
IC2_SEG061 = IC_SEG_ON;
IC2_SEG090 = IC_SEG_ON;
IC2_SEG058 = IC_SEG_ON;
IC2_SEG091 = IC_SEG_ON;
IC2_SEG055 = IC_SEG_ON;
IC1_SEG136 = IC_SEG_ON;
IC1_SEG153 = IC_SEG_ON;
IC1_SEG137 = IC_SEG_ON;
IC1_SEG150 = IC_SEG_ON;
IC1_SEG138 = IC_SEG_ON;
IC1_SEG139 = IC_SEG_ON;
IC1_SEG141 = IC_SEG_ON;
IC1_SEG145 = IC_SEG_ON;
IC1_SEG146 = IC_SEG_ON;
IC1_SEG147 = IC_SEG_ON;
IC2_SEG077 = IC_SEG_GREY;
IC2_SEG078 = IC_SEG_GREY;
IC2_SEG081 = IC_SEG_GREY;
IC2_SEG082 = IC_SEG_GREY;
IC2_SEG085 = IC_SEG_GREY;
IC2_SEG071 = IC_SEG_GREY;
IC2_SEG069 = IC_SEG_GREY;
IC2_SEG068 = IC_SEG_GREY;
IC2_SEG066 = IC_SEG_GREY;
IC2_SEG065 = IC_SEG_GREY;
IC2_SEG063 = IC_SEG_GREY;
IC2_SEG062 = IC_SEG_GREY;
IC2_SEG060 = IC_SEG_GREY;
IC2_SEG059 = IC_SEG_GREY;
IC2_SEG057 = IC_SEG_GREY;
IC2_SEG056 = IC_SEG_GREY;
IC2_SEG054 = IC_SEG_GREY;
IC1_SEG154 = IC_SEG_GREY;
IC1_SEG152 = IC_SEG_GREY;
IC1_SEG151 = IC_SEG_GREY;
IC1_SEG149 = IC_SEG_GREY;
IC1_SEG148 = IC_SEG_GREY;
IC1_SEG140 = IC_SEG_GREY;
IC1_SEG144 = IC_SEG_GREY;
switch (m_SEG)
{
case 24u:
IC1_SEG144 = IC_SEG_ON;
case 23u:
IC1_SEG140 = IC_SEG_ON;
case 22u:
IC1_SEG148 = IC_SEG_ON;
case 21u:
IC1_SEG149 = IC_SEG_ON;
case 20u:
IC1_SEG151 = IC_SEG_ON;
case 19u:
IC1_SEG152 = IC_SEG_ON;
case 18u:
IC1_SEG154 = IC_SEG_ON;
case 17u:
IC2_SEG054 = IC_SEG_ON;
case 16u:
IC2_SEG056 = IC_SEG_ON;
case 15u:
IC2_SEG057 = IC_SEG_ON;
case 14u:
IC2_SEG059 = IC_SEG_ON;
case 13u:
IC2_SEG060 = IC_SEG_ON;
case 12u:
IC2_SEG062 = IC_SEG_ON;
case 11u:
IC2_SEG063 = IC_SEG_ON;
case 10u:
IC2_SEG065 = IC_SEG_ON;
case 9u:
IC2_SEG066 = IC_SEG_ON;
case 8u:
IC2_SEG068 = IC_SEG_ON;
case 7u:
IC2_SEG069 = IC_SEG_ON;
case 6u:
IC2_SEG071 = IC_SEG_ON;
case 5u:
IC2_SEG085 = IC_SEG_ON;
case 4u:
IC2_SEG082 = IC_SEG_ON;
case 3u:
IC2_SEG081 = IC_SEG_ON;
case 2u:
IC2_SEG078 = IC_SEG_ON;
case 1u:
IC2_SEG077 = IC_SEG_ON;
case 0u:
break;
default:
break;
}
}
else
{
IC2_SEG072 = IC_SEG_OFF;
IC2_SEG073 = IC_SEG_OFF;
IC2_SEG074 = IC_SEG_OFF;
IC2_SEG075 = IC_SEG_OFF;
IC2_SEG076 = IC_SEG_OFF;
IC2_SEG079 = IC_SEG_OFF;
IC2_SEG080 = IC_SEG_OFF;
IC2_SEG083 = IC_SEG_OFF;
IC2_SEG084 = IC_SEG_OFF;
IC2_SEG086 = IC_SEG_OFF;
IC2_SEG070 = IC_SEG_OFF;
IC2_SEG087 = IC_SEG_OFF;
IC2_SEG067 = IC_SEG_OFF;
IC2_SEG088 = IC_SEG_OFF;
IC2_SEG064 = IC_SEG_OFF;
IC2_SEG089 = IC_SEG_OFF;
IC2_SEG061 = IC_SEG_OFF;
IC2_SEG090 = IC_SEG_OFF;
IC2_SEG058 = IC_SEG_OFF;
IC2_SEG091 = IC_SEG_OFF;
IC2_SEG055 = IC_SEG_OFF;
IC1_SEG136 = IC_SEG_OFF;
IC1_SEG153 = IC_SEG_OFF;
IC1_SEG137 = IC_SEG_OFF;
IC1_SEG150 = IC_SEG_OFF;
IC1_SEG138 = IC_SEG_OFF;
IC1_SEG139 = IC_SEG_OFF;
IC1_SEG141 = IC_SEG_OFF;
IC1_SEG145 = IC_SEG_OFF;
IC1_SEG146 = IC_SEG_OFF;
IC1_SEG147 = IC_SEG_OFF;
IC2_SEG077 = IC_SEG_OFF;
IC2_SEG078 = IC_SEG_OFF;
IC2_SEG081 = IC_SEG_OFF;
IC2_SEG082 = IC_SEG_OFF;
IC2_SEG085 = IC_SEG_OFF;
IC2_SEG071 = IC_SEG_OFF;
IC2_SEG069 = IC_SEG_OFF;
IC2_SEG068 = IC_SEG_OFF;
IC2_SEG066 = IC_SEG_OFF;
IC2_SEG065 = IC_SEG_OFF;
IC2_SEG063 = IC_SEG_OFF;
IC2_SEG062 = IC_SEG_OFF;
IC2_SEG060 = IC_SEG_OFF;
IC2_SEG059 = IC_SEG_OFF;
IC2_SEG057 = IC_SEG_OFF;
IC2_SEG056 = IC_SEG_OFF;
IC2_SEG054 = IC_SEG_OFF;
IC1_SEG154 = IC_SEG_OFF;
IC1_SEG152 = IC_SEG_OFF;
IC1_SEG151 = IC_SEG_OFF;
IC1_SEG149 = IC_SEG_OFF;
IC1_SEG148 = IC_SEG_OFF;
IC1_SEG140 = IC_SEG_OFF;
IC1_SEG144 = IC_SEG_OFF;
}
}
/**@brief 水温表显示函数
* @param[in] m_Flag 段与数字是否显示 -1 显示 -0 不显示
* @param[in] m_SEG 水温表盘段数0<=m_SEG<=5
* @param[in] m_num 水温表盘数字显示
* @param[in] m_flash 水温表CH闪烁标志 显示--
*/
void SEG_SET_CoolantDial(uint8_t m_Flag, uint8_t m_SEG, uint16_t m_Num, uint8_t m_flash)
{
uint16_t Num;
uint8_t m8;
if (m_Flag == 1u)
{
if((m_flash == 0) && (ClearODO_Flag != 1) && (Common_GetIgnOnTime() >= 3000))
{
if (FLASH_SYNC_1Hz)
{
IC1_SEG110 = IC_SEG_ON;
IC1_SEG103 = IC_SEG_ON;
}
else
{
IC1_SEG110 = IC_SEG_GREY;
IC1_SEG103 = IC_SEG_GREY;
}
}
else
{
IC1_SEG110 = IC_SEG_ON;
IC1_SEG103 = IC_SEG_ON;
}
IC1_SEG104 = IC_SEG_ON;
IC1_SEG114 = IC_SEG_ON;
IC1_SEG109 = IC_SEG_GREY;
IC1_SEG108 = IC_SEG_GREY;
IC1_SEG107 = IC_SEG_GREY;
IC1_SEG106 = IC_SEG_GREY;
IC1_SEG105 = IC_SEG_GREY;
switch (m_SEG)
{
case 5u:
IC1_SEG105 = IC_SEG_ON;
case 4u:
IC1_SEG106 = IC_SEG_ON;
case 3u:
IC1_SEG107 = IC_SEG_ON;
case 2u:
IC1_SEG108 = IC_SEG_ON;
case 1u:
IC1_SEG109 = IC_SEG_ON;
case 0u:
break;
default:
break;
}
if((m_flash == 0) && (ClearODO_Flag != 1) && (Common_GetIgnOnTime() >= 3000))
{
IC1_SEG128 = IC_SEG_OFF;
IC1_SEG125 = IC_SEG_OFF;
IC1_SEG124 = IC_SEG_OFF;
IC1_SEG122 = IC_SEG_OFF;
IC1_SEG112 = IC_SEG_OFF;
IC1_SEG127 = IC_SEG_OFF;
IC1_SEG126 = IC_SEG_OFF;
IC1_SEG123 = IC_SEG_ON;
IC1_SEG118 = IC_SEG_OFF;
IC1_SEG117 = IC_SEG_OFF;
IC1_SEG115 = IC_SEG_OFF;
IC1_SEG113 = IC_SEG_OFF;
IC1_SEG121 = IC_SEG_OFF;
IC1_SEG120 = IC_SEG_OFF;
IC1_SEG116 = IC_SEG_ON;
}
else
{
Num = m_Num / 100u;
if (Num == 1u)
{
IC1_SEG128 = IC_SEG_ON;
}
else
{
IC1_SEG128 = IC_SEG_OFF;
}
Num = (m_Num / 10u) % 10u;
if (m_Num >= 100u)
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG125 = IC_SEG_ON;
}
else
{
IC1_SEG125 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG124 = IC_SEG_ON;
}
else
{
IC1_SEG124 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG122 = IC_SEG_ON;
}
else
{
IC1_SEG122 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG112 = IC_SEG_ON;
}
else
{
IC1_SEG112 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG127 = IC_SEG_ON;
}
else
{
IC1_SEG127 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG126 = IC_SEG_ON;
}
else
{
IC1_SEG126 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG123 = IC_SEG_ON;
}
else
{
IC1_SEG123 = IC_SEG_OFF;
}
Num = m_Num % 10u;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG118 = IC_SEG_ON;
}
else
{
IC1_SEG118 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG117 = IC_SEG_ON;
}
else
{
IC1_SEG117 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG115 = IC_SEG_ON;
}
else
{
IC1_SEG115 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG113 = IC_SEG_ON;
}
else
{
IC1_SEG113 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG121 = IC_SEG_ON;
}
else
{
IC1_SEG121 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG120 = IC_SEG_ON;
}
else
{
IC1_SEG120 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG116 = IC_SEG_ON;
}
else
{
IC1_SEG116 = IC_SEG_OFF;
}
}
}
else
{
IC1_SEG109 = IC_SEG_OFF;
IC1_SEG108 = IC_SEG_OFF;
IC1_SEG107 = IC_SEG_OFF;
IC1_SEG106 = IC_SEG_OFF;
IC1_SEG105 = IC_SEG_OFF;
IC1_SEG103 = IC_SEG_OFF;
IC1_SEG110 = IC_SEG_OFF;
IC1_SEG104 = IC_SEG_OFF;
IC1_SEG114 = IC_SEG_OFF;
IC1_SEG128 = IC_SEG_OFF;
IC1_SEG125 = IC_SEG_OFF;
IC1_SEG124 = IC_SEG_OFF;
IC1_SEG122 = IC_SEG_OFF;
IC1_SEG112 = IC_SEG_OFF;
IC1_SEG127 = IC_SEG_OFF;
IC1_SEG126 = IC_SEG_OFF;
IC1_SEG123 = IC_SEG_OFF;
IC1_SEG118 = IC_SEG_OFF;
IC1_SEG117 = IC_SEG_OFF;
IC1_SEG115 = IC_SEG_OFF;
IC1_SEG113 = IC_SEG_OFF;
IC1_SEG121 = IC_SEG_OFF;
IC1_SEG120 = IC_SEG_OFF;
IC1_SEG116 = IC_SEG_OFF;
}
}
/**@brief 车速数字显示函数
* @param[in] m_Flag 车速是否显示 -1 显示 -0 不显示
* @param[in] m_NUM 车速数值
* @param[in] m_Unit 车速单位 -0 Km -1 mile
*/
void SEG_SET_VSpeed_NUM(uint8_t m_Flag, uint16_t m_NUM, uint8_t m_Unit)
{
uint16_t Num = 0;
uint8_t m8;
if (m_Flag == 1)
{
if (m_NUM > 99)
{
RTE_GPIO_Set_Level(VSpeed_Tens, 1);
RTE_GPIO_Set_Level(VSpeed_Hundreds, 1);
}
else if (m_NUM > 9)
{
RTE_GPIO_Set_Level(VSpeed_Tens, 1);
RTE_GPIO_Set_Level(VSpeed_Hundreds, 0);
}
else
{
RTE_GPIO_Set_Level(VSpeed_Tens, 0);
RTE_GPIO_Set_Level(VSpeed_Hundreds, 0);
}
if ((ClearODO_Flag != 1) && (Common_GetIgnOnTime() >= 3000))
{
if (Get_Current_PageType() == Page_Km_Unit)
{
if (m_Unit == 0)
{
if(FLASH_SYNC_1Hz)
{
IC2_SEG156 = IC_SEG_OFF;
IC2_SEG159 = IC_SEG_ON;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_ON);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_OFF);
}
else
{
IC2_SEG156 = IC_SEG_OFF;
IC2_SEG159 = IC_SEG_OFF;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_OFF);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_OFF);
}
}
else
{
if(FLASH_SYNC_1Hz)
{
IC2_SEG156 = IC_SEG_ON;
IC2_SEG159 = IC_SEG_OFF;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_OFF);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_ON);
}
else
{
IC2_SEG156 = IC_SEG_OFF;
IC2_SEG159 = IC_SEG_OFF;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_OFF);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_OFF);
}
}
}
else
{
if (m_Unit == 0)
{
IC2_SEG156 = IC_SEG_OFF;
IC2_SEG159 = IC_SEG_ON;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_ON);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_OFF);
}
else
{
IC2_SEG156 = IC_SEG_ON;
IC2_SEG159 = IC_SEG_OFF;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_OFF);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_ON);
}
}
}
else
{
IC2_SEG156 = IC_SEG_ON;
IC2_SEG159 = IC_SEG_ON;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_ON);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_ON);
}
Num = m_NUM / 100u;
if (Num == 1u)
{
IC2_SEG093 = IC_SEG_ON;
}
else
{
IC2_SEG093 = IC_SEG_OFF;
}
Num = (m_NUM / 10u) % 10u;
if (m_NUM >= 100u)
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC2_SEG148 = IC_SEG_ON;
}
else
{
IC2_SEG148 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG147 = IC_SEG_ON;
}
else
{
IC2_SEG147 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG098 = IC_SEG_ON;
}
else
{
IC2_SEG098 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG097 = IC_SEG_ON;
}
else
{
IC2_SEG097 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG096 = IC_SEG_ON;
}
else
{
IC2_SEG096 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG094 = IC_SEG_ON;
}
else
{
IC2_SEG094 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG095 = IC_SEG_ON;
}
else
{
IC2_SEG095 = IC_SEG_OFF;
}
Num = m_NUM % 10u;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG155 = IC_SEG_ON;
}
else
{
IC2_SEG155 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG154 = IC_SEG_ON;
}
else
{
IC2_SEG154 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG153 = IC_SEG_ON;
}
else
{
IC2_SEG153 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG152 = IC_SEG_ON;
}
else
{
IC2_SEG152 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG151 = IC_SEG_ON;
}
else
{
IC2_SEG151 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG149 = IC_SEG_ON;
}
else
{
IC2_SEG149 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG150 = IC_SEG_ON;
}
else
{
IC2_SEG150 = IC_SEG_OFF;
}
}
else
{
LED_Driver_Channel_Set(LampChannel_0, LampCh0_08_KMH, LED_OFF);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_09_MPH, LED_OFF);
IC2_SEG156 = IC_SEG_OFF;
IC2_SEG159 = IC_SEG_OFF;
IC2_SEG093 = IC_SEG_OFF;
IC2_SEG148 = IC_SEG_OFF;
IC2_SEG147 = IC_SEG_OFF;
IC2_SEG098 = IC_SEG_OFF;
IC2_SEG097 = IC_SEG_OFF;
IC2_SEG096 = IC_SEG_OFF;
IC2_SEG094 = IC_SEG_OFF;
IC2_SEG095 = IC_SEG_OFF;
IC2_SEG155 = IC_SEG_OFF;
IC2_SEG154 = IC_SEG_OFF;
IC2_SEG153 = IC_SEG_OFF;
IC2_SEG152 = IC_SEG_OFF;
IC2_SEG151 = IC_SEG_OFF;
IC2_SEG150 = IC_SEG_OFF;
IC2_SEG149 = IC_SEG_OFF;
}
}
/**@brief 电压数字显示函数
* @param[in] m_Flag 电压是否显示 -1 显示 -0 不显示
* @param[in] m_NUM 电压数值
*/
void SEG_SET_Voltage_NUM(uint8_t m_Flag, uint16_t m_NUM)
{
uint16_t Num = 0;
uint8_t m8;
if(m_Flag)
{
IC1_SEG079 = IC_SEG_ON;
IC1_SEG086 = IC_SEG_ON;
if((Get_Battery_Voltage_Valid() != 1)&&(ClearODO_Flag != 1)&&(Common_GetIgnOnTime() > 3000))
{
IC1_SEG088 = IC_SEG_ON;
IC1_SEG081 = IC_SEG_ON;
IC1_SEG096 = IC_SEG_OFF;
IC1_SEG095 = IC_SEG_OFF;
IC1_SEG093 = IC_SEG_OFF;
IC1_SEG099 = IC_SEG_OFF;
IC1_SEG098 = IC_SEG_OFF;
IC1_SEG097 = IC_SEG_OFF;
IC1_SEG094 = IC_SEG_OFF;
IC1_SEG090 = IC_SEG_OFF;
IC1_SEG089 = IC_SEG_OFF;
IC1_SEG087 = IC_SEG_OFF;
IC1_SEG100 = IC_SEG_OFF;
IC1_SEG092 = IC_SEG_OFF;
IC1_SEG091 = IC_SEG_OFF;
IC1_SEG083 = IC_SEG_OFF;
IC1_SEG082 = IC_SEG_OFF;
IC1_SEG080 = IC_SEG_OFF;
IC1_SEG101 = IC_SEG_OFF;
IC1_SEG085 = IC_SEG_OFF;
IC1_SEG084 = IC_SEG_OFF;
}
else
{
Num = m_NUM / 100;
if((ClearODO_Flag == 1) || (Common_GetIgnOnTime() <= 3000))
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG096 = IC_SEG_ON;
}
else
{
IC1_SEG096 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG095 = IC_SEG_ON;
}
else
{
IC1_SEG095 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG093 = IC_SEG_ON;
}
else
{
IC1_SEG093 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG099 = IC_SEG_ON;
}
else
{
IC1_SEG099 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG098 = IC_SEG_ON;
}
else
{
IC1_SEG098 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG097 = IC_SEG_ON;
}
else
{
IC1_SEG097 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG094 = IC_SEG_ON;
}
else
{
IC1_SEG094 = IC_SEG_OFF;
}
/*十位*/
Num = (m_NUM / 10u) % 10u;
if ((m_NUM >= 100u) || (m_NUM == 0))
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG090 = IC_SEG_ON;
}
else
{
IC1_SEG090 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG089 = IC_SEG_ON;
}
else
{
IC1_SEG089 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG087 = IC_SEG_ON;
}
else
{
IC1_SEG087 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG100 = IC_SEG_ON;
}
else
{
IC1_SEG100 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG092 = IC_SEG_ON;
}
else
{
IC1_SEG092 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG091 = IC_SEG_ON;
}
else
{
IC1_SEG091 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG088 = IC_SEG_ON;
}
else
{
IC1_SEG088 = IC_SEG_OFF;
}
/*个位*/
Num = m_NUM % 10u;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG083 = IC_SEG_ON;
}
else
{
IC1_SEG083 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG082 = IC_SEG_ON;
}
else
{
IC1_SEG082 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG080 = IC_SEG_ON;
}
else
{
IC1_SEG080 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG101 = IC_SEG_ON;
}
else
{
IC1_SEG101 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG085 = IC_SEG_ON;
}
else
{
IC1_SEG085 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG084 = IC_SEG_ON;
}
else
{
IC1_SEG084 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG081 = IC_SEG_ON;
}
else
{
IC1_SEG081 = IC_SEG_OFF;
}
}
}
}
/**@brief 胎压数字显示函数
* @param[in] m_Flag 胎压是否显示 -1 显示 -0 不显示
* @param[in] m_NUM1 前轮胎压数值
* @param[in] m_NUM2 后轮胎压数值
* @param[in] m_Unit 胎压单位 -1 Psi -0 Bar
* @param[in] m_valid1 前轮有效标志 -0 无效,显示--
* @param[in] m_valid2 后轮有效标志 -0 无效,显示--
*/
void SEG_SET_TPMS_NUM(uint8_t m_Flag, uint16_t m_NUM1, uint16_t m_NUM2, uint8_t m_Unit, uint8_t m_valid1, uint8_t m_valid2)
{
uint16_t Num1 = 0;
uint16_t Num2 = 0;
uint8_t m8;
if(m_Flag)
{
IC2_SEG142 = IC_SEG_ON;
IC2_SEG122 = IC_SEG_ON;
if ((ClearODO_Flag != 1) && (Common_GetIgnOnTime() >= 3000))
{
if (Get_Current_PageType() == Page_Tpms_Unit)
{
if (m_Unit == 0)
{
IC2_SEG118 = IC_SEG_ON;
IC2_SEG138 = IC_SEG_ON;
if(FLASH_SYNC_1Hz)
{
IC2_SEG109 = IC_SEG_OFF;
IC2_SEG110 = IC_SEG_ON;
}
else
{
IC2_SEG109 = IC_SEG_OFF;
IC2_SEG110 = IC_SEG_OFF;
}
}
else
{
IC2_SEG118 = IC_SEG_OFF;
IC2_SEG138 = IC_SEG_OFF;
if(FLASH_SYNC_1Hz)
{
IC2_SEG109 = IC_SEG_ON;
IC2_SEG110 = IC_SEG_OFF;
}
else
{
IC2_SEG109 = IC_SEG_OFF;
IC2_SEG110 = IC_SEG_OFF;
}
}
}
else
{
if (m_Unit == 0)
{
IC2_SEG109 = IC_SEG_OFF;
IC2_SEG110 = IC_SEG_ON;
IC2_SEG118 = IC_SEG_ON;
IC2_SEG138 = IC_SEG_ON;
}
else
{
IC2_SEG109 = IC_SEG_ON;
IC2_SEG110 = IC_SEG_OFF;
IC2_SEG118 = IC_SEG_OFF;
IC2_SEG138 = IC_SEG_OFF;
}
}
}
else
{
IC2_SEG109 = IC_SEG_ON;
IC2_SEG110 = IC_SEG_ON;
IC2_SEG118 = IC_SEG_ON;
IC2_SEG138 = IC_SEG_ON;
}
if (m_valid1 == 1)
{
Num1 = m_NUM1 / 10u;
m8 = SEG_DISPLAY_NUMBER0[Num1];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG143 = IC_SEG_ON;
}
else
{
IC2_SEG143 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG141 = IC_SEG_ON;
}
else
{
IC2_SEG141 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG139 = IC_SEG_ON;
}
else
{
IC2_SEG139 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG146 = IC_SEG_ON;
}
else
{
IC2_SEG146 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG145 = IC_SEG_ON;
}
else
{
IC2_SEG145 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG144 = IC_SEG_ON;
}
else
{
IC2_SEG144 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG140 = IC_SEG_ON;
}
else
{
IC2_SEG140 = IC_SEG_OFF;
}
Num1 = m_NUM1 % 10u;
m8 = SEG_DISPLAY_NUMBER0[Num1];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG135 = IC_SEG_ON;
}
else
{
IC2_SEG135 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG134 = IC_SEG_ON;
}
else
{
IC2_SEG134 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG132 = IC_SEG_ON;
}
else
{
IC2_SEG132 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG131 = IC_SEG_ON;
}
else
{
IC2_SEG131 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG137 = IC_SEG_ON;
}
else
{
IC2_SEG137 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG136 = IC_SEG_ON;
}
else
{
IC2_SEG136 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG133 = IC_SEG_ON;
}
else
{
IC2_SEG133 = IC_SEG_OFF;
}
}
else
{
IC2_SEG140 = IC_SEG_ON;
IC2_SEG133 = IC_SEG_ON;
IC2_SEG143 = IC_SEG_OFF;
IC2_SEG141 = IC_SEG_OFF;
IC2_SEG139 = IC_SEG_OFF;
IC2_SEG146 = IC_SEG_OFF;
IC2_SEG145 = IC_SEG_OFF;
IC2_SEG144 = IC_SEG_OFF;
IC2_SEG135 = IC_SEG_OFF;
IC2_SEG134 = IC_SEG_OFF;
IC2_SEG132 = IC_SEG_OFF;
IC2_SEG131 = IC_SEG_OFF;
IC2_SEG137 = IC_SEG_OFF;
IC2_SEG136 = IC_SEG_OFF;
}
if (m_valid2 == 1)
{
Num2 = m_NUM2 / 10u;
m8 = SEG_DISPLAY_NUMBER0[Num2];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG123 = IC_SEG_ON;
}
else
{
IC2_SEG123 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG121 = IC_SEG_ON;
}
else
{
IC2_SEG121 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG119 = IC_SEG_ON;
}
else
{
IC2_SEG119 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG126 = IC_SEG_ON;
}
else
{
IC2_SEG126 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG125 = IC_SEG_ON;
}
else
{
IC2_SEG125 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG124 = IC_SEG_ON;
}
else
{
IC2_SEG124 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG120 = IC_SEG_ON;
}
else
{
IC2_SEG120 = IC_SEG_OFF;
}
Num2 = m_NUM2 % 10u;
m8 = SEG_DISPLAY_NUMBER0[Num2];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG115 = IC_SEG_ON;
}
else
{
IC2_SEG115 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG114 = IC_SEG_ON;
}
else
{
IC2_SEG114 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG112 = IC_SEG_ON;
}
else
{
IC2_SEG112 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG111 = IC_SEG_ON;
}
else
{
IC2_SEG111 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG117 = IC_SEG_ON;
}
else
{
IC2_SEG117 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG116 = IC_SEG_ON;
}
else
{
IC2_SEG116 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG113 = IC_SEG_ON;
}
else
{
IC2_SEG113 = IC_SEG_OFF;
}
}
else
{
IC2_SEG120 = IC_SEG_ON;
IC2_SEG113 = IC_SEG_ON;
IC2_SEG123 = IC_SEG_OFF;
IC2_SEG121 = IC_SEG_OFF;
IC2_SEG119 = IC_SEG_OFF;
IC2_SEG126 = IC_SEG_OFF;
IC2_SEG125 = IC_SEG_OFF;
IC2_SEG124 = IC_SEG_OFF;
IC2_SEG115 = IC_SEG_OFF;
IC2_SEG114 = IC_SEG_OFF;
IC2_SEG112 = IC_SEG_OFF;
IC2_SEG111 = IC_SEG_OFF;
IC2_SEG117 = IC_SEG_OFF;
IC2_SEG116 = IC_SEG_OFF;
}
}
else
{
IC2_SEG120 = IC_SEG_OFF;
IC2_SEG113 = IC_SEG_OFF;
IC2_SEG123 = IC_SEG_OFF;
IC2_SEG121 = IC_SEG_OFF;
IC2_SEG119 = IC_SEG_OFF;
IC2_SEG126 = IC_SEG_OFF;
IC2_SEG125 = IC_SEG_OFF;
IC2_SEG124 = IC_SEG_OFF;
IC2_SEG115 = IC_SEG_OFF;
IC2_SEG114 = IC_SEG_OFF;
IC2_SEG112 = IC_SEG_OFF;
IC2_SEG111 = IC_SEG_OFF;
IC2_SEG117 = IC_SEG_OFF;
IC2_SEG116 = IC_SEG_OFF;
IC2_SEG140 = IC_SEG_OFF;
IC2_SEG133 = IC_SEG_OFF;
IC2_SEG143 = IC_SEG_OFF;
IC2_SEG141 = IC_SEG_OFF;
IC2_SEG139 = IC_SEG_OFF;
IC2_SEG146 = IC_SEG_OFF;
IC2_SEG145 = IC_SEG_OFF;
IC2_SEG144 = IC_SEG_OFF;
IC2_SEG135 = IC_SEG_OFF;
IC2_SEG134 = IC_SEG_OFF;
IC2_SEG132 = IC_SEG_OFF;
IC2_SEG131 = IC_SEG_OFF;
IC2_SEG137 = IC_SEG_OFF;
IC2_SEG136 = IC_SEG_OFF;
IC2_SEG109 = IC_SEG_OFF;
IC2_SEG110 = IC_SEG_OFF;
IC2_SEG118 = IC_SEG_OFF;
IC2_SEG122 = IC_SEG_OFF;
IC2_SEG138 = IC_SEG_OFF;
IC2_SEG142 = IC_SEG_OFF;
}
}
/**@brief 总计里程显示函数
* @param[in] m_NUM_ODO 显示ODO数值 0 < m_NUM <= 199999
* @param[in] m_Uint 距离单位 -0 KM -1 MILE
*/
void SEG_SET_ODO_TRIP_FAULTCODE_TCS_DIS(uint8_t m_Uint, uint32_t m_NUM_ODO, uint32_t m_NUM_TRIP)
{
uint32_t Num;
uint8_t m8;
RTE_GPIO_Set_Level(ODO_TenThousand, 1);
RTE_GPIO_Set_Level(ODO_Thousand, 1);
if ((ClearODO_Flag != 1) && (Common_GetIgnOnTime() >= 3000))
{
if ((Get_Current_PageType() == Page_Km_Unit) && ((Get_Current_PageMenu() == Page_Odo) || (Get_Current_PageMenu() == Page_Trip)))
{
if (m_Uint == 0)
{
if(FLASH_SYNC_1Hz)
{
IC1_SEG036 = IC_SEG_OFF;
IC1_SEG037 = IC_SEG_ON;
}
else
{
IC1_SEG036 = IC_SEG_OFF;
IC1_SEG037 = IC_SEG_OFF;
}
}
else
{
if(FLASH_SYNC_1Hz)
{
IC1_SEG036 = IC_SEG_ON;
IC1_SEG037 = IC_SEG_OFF;
}
else
{
IC1_SEG036 = IC_SEG_OFF;
IC1_SEG037 = IC_SEG_OFF;
}
}
}
else
{
if((Get_Current_PageMenu() == Page_Odo) || (Get_Current_PageMenu() == Page_Trip))
{
if (m_Uint == 0)
{
IC1_SEG036 = IC_SEG_OFF;
IC1_SEG037 = IC_SEG_ON;
}
else
{
IC1_SEG036 = IC_SEG_ON;
IC1_SEG037 = IC_SEG_OFF;
}
if(Get_Current_PageMenu() == Page_Odo)
{
IC1_SEG072 = IC_SEG_ON;
IC1_SEG045 = IC_SEG_OFF;
IC1_SEG046 = IC_SEG_OFF;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_35_ODO, LED_ON);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_34_TRIP, LED_OFF);
}
else if (Get_Current_PageMenu() == Page_Trip)
{
IC1_SEG072 = IC_SEG_OFF;
IC1_SEG045 = IC_SEG_ON;
IC1_SEG046 = IC_SEG_ON;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_35_ODO, LED_OFF);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_34_TRIP, LED_ON);
}
else
{
;
}
}
else
{
IC1_SEG036 = IC_SEG_OFF;
IC1_SEG037 = IC_SEG_OFF;
IC1_SEG072 = IC_SEG_OFF;
IC1_SEG045 = IC_SEG_OFF;
IC1_SEG046 = IC_SEG_OFF;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_35_ODO, LED_OFF);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_34_TRIP, LED_OFF);
}
}
}
else
{
IC1_SEG036 = IC_SEG_ON;
IC1_SEG037 = IC_SEG_ON;
IC1_SEG072 = IC_SEG_ON;
IC1_SEG045 = IC_SEG_ON;
IC1_SEG046 = IC_SEG_ON;
LED_Driver_Channel_Set(LampChannel_0, LampCh0_35_ODO, LED_ON);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_34_TRIP, LED_ON);
}
if((Get_Current_PageMenu() == Page_Odo) || (ClearODO_Flag == 1) || (Common_GetIgnOnTime() < 3000))
{
if(m_NUM_ODO > 99999)
{
IC1_SEG076 = IC_SEG_ON;
}
else
{
IC1_SEG076 = IC_SEG_OFF;
}
Num = (m_NUM_ODO / 10000) % 10;
if (m_NUM_ODO >= 100000)
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG071 = IC_SEG_ON;
}
else
{
IC1_SEG071 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG070 = IC_SEG_ON;
}
else
{
IC1_SEG070 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG068 = IC_SEG_ON;
}
else
{
IC1_SEG068 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG075 = IC_SEG_ON;
}
else
{
IC1_SEG075 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG074 = IC_SEG_ON;
}
else
{
IC1_SEG074 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG073 = IC_SEG_ON;
}
else
{
IC1_SEG073 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG069 = IC_SEG_ON;
}
else
{
IC1_SEG069 = IC_SEG_OFF;
}
Num = (m_NUM_ODO / 1000) % 10;
if (m_NUM_ODO >= 10000)
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG064 = IC_SEG_ON;
}
else
{
IC1_SEG064 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG063 = IC_SEG_ON;
}
else
{
IC1_SEG063 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG061 = IC_SEG_ON;
}
else
{
IC1_SEG061 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG067 = IC_SEG_ON;
}
else
{
IC1_SEG067 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG066 = IC_SEG_ON;
}
else
{
IC1_SEG066 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG065 = IC_SEG_ON;
}
else
{
IC1_SEG065 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG062 = IC_SEG_ON;
}
else
{
IC1_SEG062 = IC_SEG_OFF;
}
Num = (m_NUM_ODO / 100) % 10;
if (m_NUM_ODO >= 1000)
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG057 = IC_SEG_ON;
}
else
{
IC1_SEG057 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG056 = IC_SEG_ON;
}
else
{
IC1_SEG056 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG054 = IC_SEG_ON;
}
else
{
IC1_SEG054 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG060 = IC_SEG_ON;
}
else
{
IC1_SEG060 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG059 = IC_SEG_ON;
}
else
{
IC1_SEG059 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG058 = IC_SEG_ON;
}
else
{
IC1_SEG058 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG055 = IC_SEG_ON;
}
else
{
IC1_SEG055 = IC_SEG_OFF;
}
Num = (m_NUM_ODO / 10) % 10;
if (m_NUM_ODO >= 100)
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG050 = IC_SEG_ON;
}
else
{
IC1_SEG050 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG049 = IC_SEG_ON;
}
else
{
IC1_SEG049 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG047 = IC_SEG_ON;
}
else
{
IC1_SEG047 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG053 = IC_SEG_ON;
}
else
{
IC1_SEG053 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG052 = IC_SEG_ON;
}
else
{
IC1_SEG052 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG051 = IC_SEG_ON;
}
else
{
IC1_SEG051 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG048 = IC_SEG_ON;
}
else
{
IC1_SEG048 = IC_SEG_OFF;
}
Num = m_NUM_ODO % 10;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG042 = IC_SEG_ON;
}
else
{
IC1_SEG042 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG041 = IC_SEG_ON;
}
else
{
IC1_SEG041 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG039 = IC_SEG_ON;
}
else
{
IC1_SEG039 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG038 = IC_SEG_ON;
}
else
{
IC1_SEG038 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG044 = IC_SEG_ON;
}
else
{
IC1_SEG044 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG043 = IC_SEG_ON;
}
else
{
IC1_SEG043 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG040 = IC_SEG_ON;
}
else
{
IC1_SEG040 = IC_SEG_OFF;
}
}
else if (Get_Current_PageMenu() == Page_Trip)
{
IC1_SEG076 = IC_SEG_OFF;
IC1_SEG071 = IC_SEG_OFF;
IC1_SEG070 = IC_SEG_OFF;
IC1_SEG068 = IC_SEG_OFF;
IC1_SEG075 = IC_SEG_OFF;
IC1_SEG074 = IC_SEG_OFF;
IC1_SEG073 = IC_SEG_OFF;
IC1_SEG069 = IC_SEG_OFF;
Num = m_NUM_TRIP / 1000;
m8 = SEG_UNDISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG064 = IC_SEG_ON;
}
else
{
IC1_SEG064 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG063 = IC_SEG_ON;
}
else
{
IC1_SEG063 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG061 = IC_SEG_ON;
}
else
{
IC1_SEG061 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG067 = IC_SEG_ON;
}
else
{
IC1_SEG067 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG066 = IC_SEG_ON;
}
else
{
IC1_SEG066 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG065 = IC_SEG_ON;
}
else
{
IC1_SEG065 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG062 = IC_SEG_ON;
}
else
{
IC1_SEG062 = IC_SEG_OFF;
}
Num = (m_NUM_TRIP / 100) % 10;
if (m_NUM_TRIP >= 1000)
{
m8 = SEG_DISPLAY_NUMBER0[Num];
}
else
{
m8 = SEG_UNDISPLAY_NUMBER0[Num];
}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG057 = IC_SEG_ON;
}
else
{
IC1_SEG057 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG056 = IC_SEG_ON;
}
else
{
IC1_SEG056 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG054 = IC_SEG_ON;
}
else
{
IC1_SEG054 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG060 = IC_SEG_ON;
}
else
{
IC1_SEG060 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG059 = IC_SEG_ON;
}
else
{
IC1_SEG059 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG058 = IC_SEG_ON;
}
else
{
IC1_SEG058 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG055 = IC_SEG_ON;
}
else
{
IC1_SEG055 = IC_SEG_OFF;
}
Num = (m_NUM_TRIP / 10) % 10;
//if ((m_NUM_TRIP >= 100) || (m_NUM_TRIP == 0))
//{
m8 = SEG_DISPLAY_NUMBER0[Num];
//}
//else
//{
// m8 = SEG_UNDISPLAY_NUMBER0[Num];
//}
if (Bit_Is_Set(m8, 0))
{
IC1_SEG050 = IC_SEG_ON;
}
else
{
IC1_SEG050 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG049 = IC_SEG_ON;
}
else
{
IC1_SEG049 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG047 = IC_SEG_ON;
}
else
{
IC1_SEG047 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG053 = IC_SEG_ON;
}
else
{
IC1_SEG053 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG052 = IC_SEG_ON;
}
else
{
IC1_SEG052 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG051 = IC_SEG_ON;
}
else
{
IC1_SEG051 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG048 = IC_SEG_ON;
}
else
{
IC1_SEG048 = IC_SEG_OFF;
}
Num = m_NUM_TRIP % 10;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC1_SEG042 = IC_SEG_ON;
}
else
{
IC1_SEG042 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC1_SEG041 = IC_SEG_ON;
}
else
{
IC1_SEG041 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC1_SEG039 = IC_SEG_ON;
}
else
{
IC1_SEG039 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC1_SEG038 = IC_SEG_ON;
}
else
{
IC1_SEG038 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC1_SEG044 = IC_SEG_ON;
}
else
{
IC1_SEG044 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC1_SEG043 = IC_SEG_ON;
}
else
{
IC1_SEG043 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC1_SEG040 = IC_SEG_ON;
}
else
{
IC1_SEG040 = IC_SEG_OFF;
}
}
else if (Get_Current_PageMenu() == Page_DTC)
{
IC1_SEG076 = IC_SEG_OFF;
if(CAN_MSG_Status(&CAN_CH0_CanMsgOp, CAN_CH0_ID_CAN_0x402_Msg_Count) == CAN_SIG_LOST)
{
SEG_SET_DTC_NUM(0x0B0B0B0B);
IC1_SEG071 = IC_SEG_OFF;
IC1_SEG070 = IC_SEG_OFF;
IC1_SEG068 = IC_SEG_OFF;
IC1_SEG075 = IC_SEG_OFF;
IC1_SEG074 = IC_SEG_OFF;
IC1_SEG073 = IC_SEG_OFF;
IC1_SEG069 = IC_SEG_ON;
}
else
{
DTC_DISTimer ++;
IC1_SEG071 = IC_SEG_ON;
IC1_SEG070 = IC_SEG_ON;
IC1_SEG068 = IC_SEG_OFF;
IC1_SEG075 = IC_SEG_OFF;
IC1_SEG074 = IC_SEG_ON;
IC1_SEG073 = IC_SEG_ON;
IC1_SEG069 = IC_SEG_ON;
if(FaultCode_Number == 0)
{
SEG_SET_DTC_NUM(0);
DTC_DISTimer = 0;
Current_DTC_CODE = 0;
Current_DTC_CODE_BACK = 0;
}
else
{
if(DTC_DISTimer < 100)
{
if (DTC_DISCount >= FaultCode_Number)
{
DTC_DISCount = FaultCode_Number -1;
}
if((FaultCode_Compare(Current_DTC_CODE, &FaultCode_Data[0], FaultCode_Number) == 0) && (FaultCode_Data[DTC_DISCount] != 0))
{
Current_DTC_CODE = FaultCode_Data[DTC_DISCount] ;
DTC_DISTimer = 0;
}
Current_DTC_CODE_BACK = Current_DTC_CODE;
}
else if (DTC_DISTimer >= 100)
{
DTC_DISCount ++ ;
if (DTC_DISCount >= FaultCode_Number)
{
DTC_DISCount = 0;
}
Current_DTC_CODE = FaultCode_Data[DTC_DISCount] ;
DTC_DISTimer = 0;
if(Current_DTC_CODE == Current_DTC_CODE_BACK)
{
DTC_DISCount ++ ;
Current_DTC_CODE = FaultCode_Data[DTC_DISCount] ;
}
}
SEG_SET_DTC_NUM(Current_DTC_CODE);
}
}
}
else if (Get_Current_PageMenu() == Page_TCS)
{
IC1_SEG076 = IC_SEG_OFF;
IC1_SEG071 = IC_SEG_ON;
IC1_SEG070 = IC_SEG_OFF;
IC1_SEG068 = IC_SEG_ON;
IC1_SEG075 = IC_SEG_ON;
IC1_SEG074 = IC_SEG_OFF;
IC1_SEG073 = IC_SEG_ON;
IC1_SEG069 = IC_SEG_ON;
IC1_SEG064 = IC_SEG_OFF;
IC1_SEG063 = IC_SEG_OFF;
IC1_SEG061 = IC_SEG_OFF;
IC1_SEG067 = IC_SEG_OFF;
IC1_SEG066 = IC_SEG_OFF;
IC1_SEG065 = IC_SEG_OFF;
IC1_SEG062 = IC_SEG_OFF;
IC1_SEG057 = IC_SEG_ON;
IC1_SEG056 = IC_SEG_ON;
IC1_SEG054 = IC_SEG_ON;
IC1_SEG060 = IC_SEG_ON;
IC1_SEG059 = IC_SEG_ON;
IC1_SEG058 = IC_SEG_ON;
IC1_SEG055 = IC_SEG_OFF;
if(Get_Dis_Tcs_Val() == 0)
{
IC1_SEG050 = IC_SEG_ON;
IC1_SEG049 = IC_SEG_OFF;
IC1_SEG047 = IC_SEG_OFF;
IC1_SEG053 = IC_SEG_OFF;
IC1_SEG052 = IC_SEG_ON;
IC1_SEG051 = IC_SEG_ON;
IC1_SEG048 = IC_SEG_ON;
IC1_SEG042 = IC_SEG_ON;
IC1_SEG041 = IC_SEG_OFF;
IC1_SEG039 = IC_SEG_OFF;
IC1_SEG038 = IC_SEG_OFF;
IC1_SEG044 = IC_SEG_ON;
IC1_SEG043 = IC_SEG_ON;
IC1_SEG040 = IC_SEG_ON;
}
else
{
IC1_SEG050 = IC_SEG_ON;
IC1_SEG049 = IC_SEG_ON;
IC1_SEG047 = IC_SEG_ON;
IC1_SEG053 = IC_SEG_OFF;
IC1_SEG052 = IC_SEG_ON;
IC1_SEG051 = IC_SEG_ON;
IC1_SEG048 = IC_SEG_OFF;
IC1_SEG042 = IC_SEG_OFF;
IC1_SEG041 = IC_SEG_OFF;
IC1_SEG039 = IC_SEG_OFF;
IC1_SEG038 = IC_SEG_OFF;
IC1_SEG044 = IC_SEG_OFF;
IC1_SEG043 = IC_SEG_OFF;
IC1_SEG040 = IC_SEG_OFF;
}
}
else{;}
}
/**@brief 时间显示函数
* @param[in] m_hour 小时
* @param[in] m_minute 分钟
* @param[in] m_icon 中间冒号是否显示 -1 显示 -0 不显示
* @param[in] m_Flag1 小时是否显示 -1 显示 -0 不显示
* @param[in] m_Flag2 分钟是否显示 -1 显示 -0 不显示
*/
void SEG_SET_Clock(uint8_t m_hour, uint8_t m_minute, uint8_t m_icon, uint8_t m_Flag1, uint8_t m_Flag2)
{
uint8_t Num;
uint8_t m8;
if (m_icon == 1u)
{
IC2_SEG043 = IC_SEG_ON;
}
else
{
IC2_SEG043 = IC_SEG_OFF;
}
if (m_Flag1 == 1u)
{
Num = m_hour / 10u; /*86104-11*/
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG033 = IC_SEG_ON;
}
else
{
IC2_SEG033 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG032 = IC_SEG_ON;
}
else
{
IC2_SEG032 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG037 = IC_SEG_ON;
}
else
{
IC2_SEG037 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG036 = IC_SEG_ON;
}
else
{
IC2_SEG036 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG035 = IC_SEG_ON;
}
else
{
IC2_SEG035 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG034 = IC_SEG_ON;
}
else
{
IC2_SEG034 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG038 = IC_SEG_ON;
}
else
{
IC2_SEG038 = IC_SEG_OFF;
}
Num = m_hour % 10u;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG030 = IC_SEG_ON;
}
else
{
IC2_SEG030 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG029 = IC_SEG_ON;
}
else
{
IC2_SEG029 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG042 = IC_SEG_ON;
}
else
{
IC2_SEG042 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG041 = IC_SEG_ON;
}
else
{
IC2_SEG041 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG040 = IC_SEG_ON;
}
else
{
IC2_SEG040 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG031 = IC_SEG_ON;
}
else
{
IC2_SEG031 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG039 = IC_SEG_ON;
}
else
{
IC2_SEG039 = IC_SEG_OFF;
}
}
else
{
IC2_SEG033 = IC_SEG_OFF;
IC2_SEG032 = IC_SEG_OFF;
IC2_SEG037 = IC_SEG_OFF;
IC2_SEG036 = IC_SEG_OFF;
IC2_SEG035 = IC_SEG_OFF;
IC2_SEG034 = IC_SEG_OFF;
IC2_SEG038 = IC_SEG_OFF;
IC2_SEG030 = IC_SEG_OFF;
IC2_SEG029 = IC_SEG_OFF;
IC2_SEG042 = IC_SEG_OFF;
IC2_SEG041 = IC_SEG_OFF;
IC2_SEG040 = IC_SEG_OFF;
IC2_SEG031 = IC_SEG_OFF;
IC2_SEG039 = IC_SEG_OFF;
}
if (m_Flag2 == 1u)
{
Num = m_minute / 10u;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG027 = IC_SEG_ON;
}
else
{
IC2_SEG027 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG026 = IC_SEG_ON;
}
else
{
IC2_SEG026 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG046 = IC_SEG_ON;
}
else
{
IC2_SEG046 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG045 = IC_SEG_ON;
}
else
{
IC2_SEG045 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG044 = IC_SEG_ON;
}
else
{
IC2_SEG044 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG028 = IC_SEG_ON;
}
else
{
IC2_SEG028 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG047 = IC_SEG_ON;
}
else
{
IC2_SEG047 = IC_SEG_OFF;
}
Num = m_minute % 10u;
m8 = SEG_DISPLAY_NUMBER0[Num];
if (Bit_Is_Set(m8, 0))
{
IC2_SEG024 = IC_SEG_ON;
}
else
{
IC2_SEG024 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 1))
{
IC2_SEG023 = IC_SEG_ON;
}
else
{
IC2_SEG023 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 2))
{
IC2_SEG051 = IC_SEG_ON;
}
else
{
IC2_SEG051 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 3))
{
IC2_SEG050 = IC_SEG_ON;
}
else
{
IC2_SEG050 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 4))
{
IC2_SEG049 = IC_SEG_ON;
}
else
{
IC2_SEG049 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 5))
{
IC2_SEG025 = IC_SEG_ON;
}
else
{
IC2_SEG025 = IC_SEG_OFF;
}
if (Bit_Is_Set(m8, 6))
{
IC2_SEG048 = IC_SEG_ON;
}
else
{
IC2_SEG048 = IC_SEG_OFF;
}
}
else
{
IC2_SEG027 = IC_SEG_OFF;
IC2_SEG026 = IC_SEG_OFF;
IC2_SEG046 = IC_SEG_OFF;
IC2_SEG045 = IC_SEG_OFF;
IC2_SEG044 = IC_SEG_OFF;
IC2_SEG028 = IC_SEG_OFF;
IC2_SEG047 = IC_SEG_OFF;
IC2_SEG024 = IC_SEG_OFF;
IC2_SEG023 = IC_SEG_OFF;
IC2_SEG051 = IC_SEG_OFF;
IC2_SEG050 = IC_SEG_OFF;
IC2_SEG049 = IC_SEG_OFF;
IC2_SEG025 = IC_SEG_OFF;
IC2_SEG048 = IC_SEG_OFF;
}
}
uint8_t fuel_check_SEG_step = 0;
void SEG_Scan_SET_Fuel_Coolant_Dial(uint8_t coolant)
{
uint8_t a = 0;
a = fuel_check_SEG_step / 10u;
SEG_SET_FuelDial(1, a);
SEG_SET_CoolantDial(1, a, coolant, 1);
if (fuel_check_SEG_step < 59)
{
fuel_check_SEG_step++;
}
else
{
fuel_check_SEG_step = 0;
}
}
uint8_t Espeed_check_SEG_step = 0;
void SEG_Scan_SET_EspeedDial(void)
{
uint16_t a = 0;
a = (Espeed_check_SEG_step / 10) * 500;
SEG_SET_EspeedDial(1, a / 500);
}
uint8_t check_SEG_step = 0;
/*仪表段码扫描函数*/
void Check_SEG_Display(void)
{
uint32_t a;
uint8_t i = 0;
a = check_SEG_step / 25u;
SEG_SET_ODO_TRIP_FAULTCODE_TCS_DIS(1, ((a * 11111) + 100000), 0);
SEG_SET_VSpeed_NUM(1u, (100u + (a * 10u) + a), 0);
SEG_SET_Clock(((a * 10u) + a), ((a * 10u) + a), 1u, 1u, 1u);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_07_Screen_Time, LED_ON);
SEG_SET_TPMS_NUM(1, a * 11, a * 11, 0, 1, 1);
SEG_SET_Voltage_NUM(1, a * 111);
for (i = 0; i < SEG_LED_MAX; i++)
{
SEG_SET_LED_STS(i, 1);
}
SEG_Scan_SET_Fuel_Coolant_Dial((a*11) + 100);
SEG_Scan_SET_EspeedDial();
}
uint8_t Checkself_SEG_step = 0;
uint8_t Checkself_SEG_step_count = 0;
void Checkself_Init(void)
{
Checkself_SEG_step = 0;
Checkself_SEG_step_count = 0;
check_SEG_step = 0;
Espeed_check_SEG_step = 0;
fuel_check_SEG_step = 0;
}
void Checkself_SEG_Display(void)
{
uint16_t Vspeed = 0;
uint16_t Espeed = 0;
uint16_t Fuel = 0;
uint16_t collant = 0;
uint16_t TPMS = 0;
uint16_t voltage = 0;
uint16_t hour = 0;
uint16_t min = 0;
uint32_t ODO = 0;
//uint32_t i = 0;
//for(i = 0; i < BU98R10_DDRAM_SIZE; i ++)
//{
// BU98R10Chip0DDRAM.Byte[i] = 1;
// BU98R10Chip1DDRAM.Byte[i] = 1;
//}
Fuel = Checkself_SEG_step / 5u;
SEG_SET_FuelDial(1, Fuel);
collant = 100 + ((Checkself_SEG_step / 3) * 11);
SEG_SET_CoolantDial(1, Fuel, collant, 1);
Espeed = (Checkself_SEG_step * 5 / 6) * 500;
SEG_SET_EspeedDial(1, Espeed / 500);
Vspeed = ((Checkself_SEG_step / 3) * 11) + 100;
SEG_SET_VSpeed_NUM(1, Vspeed, 0);
ODO = ((Checkself_SEG_step / 3) * 11111) + 100000;
SEG_SET_ODO_TRIP_FAULTCODE_TCS_DIS(1, ODO, 0);
hour = (Checkself_SEG_step / 3) * 11;
min = (Checkself_SEG_step / 3) * 11;
SEG_SET_Clock(hour, min, 1, 1, 1);
LED_Driver_Channel_Set(LampChannel_0, LampCh0_07_Screen_Time, LED_ON);
TPMS = (Checkself_SEG_step / 3) * 11;
SEG_SET_TPMS_NUM(1, TPMS, TPMS, 0, 1, 1);
voltage = (Checkself_SEG_step / 3) * 111;
SEG_SET_Voltage_NUM(1, voltage);
if (Checkself_SEG_step_count < 60)
{
Checkself_SEG_step_count++;
}
else
{
Checkself_SEG_step_count = 60;
}
if (Checkself_SEG_step_count <= 29)
{
Checkself_SEG_step++;
}
else
{
if (Checkself_SEG_step == 0)
{
Checkself_SEG_step = 0;
}
else
{
Checkself_SEG_step--;
}
}
}
void TYW_Check_Count(void)
{
if ((ClearODO_Flag == 1)&&( Common_Get_IG_Sts( ) == COMMON_POWER_ON ))
{
if (check_SEG_step < 249u)
{
check_SEG_step++;
}
else
{
check_SEG_step = 0u;
}
if (Espeed_check_SEG_step < 249)
{
Espeed_check_SEG_step++;
}
else
{
Espeed_check_SEG_step = 0;
}
}
}