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rt-thread/bsp/essemi/es8p508x/libraries/Library/Source/lib_gpio.c

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/***************************************************************
*Copyright (C), 2017, Shanghai Eastsoft Microelectronics Co., Ltd.
*文件名: lib_gpio.c
*作 者: Liut
*版 本: V1.00
*日 期: 2017/07/14
*描 述: flash读写库函数头文件
*备 注: 适用于 ES8P508x芯片
本软件仅供学习和演示使用,对用户直接引用代码所带来的风险或后果不承担任何法律责任。
***************************************************************/
#include "lib_gpio.h"
extern uint32_t SystemCoreClock;
/***************************************************************
函数名GPIO_Init
描 述GPIO初始化
输入值GPIOx可以是GPIOA/GPIOB 、 PINx根据芯片选择需要的引脚 、 GPIO_InitStruct初始化配置结构体地址
输出值:无
返回值:无
***************************************************************/
void GPIO_Init(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_InitStruType* GPIO_InitStruct)
{
if (GPIO_InitStruct->GPIO_Signal == GPIO_Pin_Signal_Analog) {
GPIO_SetSingalTypeFromPin(GPIOx, PINx, GPIO_Pin_Signal_Analog);
GPIO_SetDirRegFromPin(GPIOx, PINx, GPIO_Dir_In);
GPIO_SetFuncxRegFromPin(GPIOx, PINx, GPIO_Func_0);
}
else {
GPIO_SetSingalTypeFromPin(GPIOx, PINx, GPIO_Pin_Signal_Digital);
GPIO_SetDirRegFromPin(GPIOx, PINx, GPIO_InitStruct->GPIO_Direction);
GPIO_SetFuncxRegFromPin(GPIOx, PINx, GPIO_InitStruct->GPIO_Func);
if (GPIO_InitStruct->GPIO_Direction == GPIO_Dir_Out) {
GPIO_SetODERegFromPin(GPIOx, PINx, GPIO_InitStruct->GPIO_OD);
GPIO_SetDSRegFromPin(GPIOx, PINx, GPIO_InitStruct->GPIO_DS);
}
GPIO_SetPUERegFromPin(GPIOx, PINx, GPIO_InitStruct->GPIO_PUEN);
GPIO_SetPDERegFromPin(GPIOx, PINx, GPIO_InitStruct->GPIO_PDEN);
}
}
/***************************************************************
函数名GPIO_SetFuncxRegFromPin
描 述设置GPIO引脚的功能复用
输入值Pin目的引脚
Func功能复用编号
输出值:无
返回值:无
***************************************************************/
void GPIO_SetFuncxRegFromPin(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_TYPE_FUNC Func)
{
uint32_t value;
switch (Func) {
case GPIO_Func_0:
value = 0;
break;
case GPIO_Func_1:
value = 1;
break;
case GPIO_Func_2:
value = 2;
break;
case GPIO_Func_3:
value = 3;
break;
default:
value = 0;
break;
}
/* 引脚功能设置 */
if(GPIOx == GPIOB){
switch (PINx) {
case GPIO_Pin_0:
GPIO->PBFUNC0.PB0 = value;
break;
case GPIO_Pin_1:
GPIO->PBFUNC0.PB1 = value;
break;
case GPIO_Pin_2:
GPIO->PBFUNC0.PB2 = value;
break;
case GPIO_Pin_3:
GPIO->PBFUNC0.PB3 = value;
break;
case GPIO_Pin_4:
GPIO->PBFUNC0.PB4 = value;
break;
case GPIO_Pin_5:
GPIO->PBFUNC0.PB5 = value;
break;
case GPIO_Pin_6:
GPIO->PBFUNC0.PB6 = value;
break;
case GPIO_Pin_7:
GPIO->PBFUNC0.PB7 = value;
break;
case GPIO_Pin_8:
GPIO->PBFUNC1.PB8 = value;
break;
case GPIO_Pin_9:
GPIO->PBFUNC1.PB9 = value;
break;
case GPIO_Pin_10:
GPIO->PBFUNC1.PB10 = value;
break;
case GPIO_Pin_11:
GPIO->PBFUNC1.PB11 = value;
break;
case GPIO_Pin_12:
GPIO->PBFUNC1.PB12 = value;
break;
case GPIO_Pin_13:
GPIO->PBFUNC1.PB13 = value;
break;
default:
break;
}
}
else{
switch (PINx) {
case GPIO_Pin_0:
GPIO->PAFUNC0.PA0 = value;
break;
case GPIO_Pin_1:
GPIO->PAFUNC0.PA1 = value;
break;
case GPIO_Pin_2:
GPIO->PAFUNC0.PA2 = value;
break;
case GPIO_Pin_3:
GPIO->PAFUNC0.PA3 = value;
break;
case GPIO_Pin_4:
GPIO->PAFUNC0.PA4 = value;
break;
case GPIO_Pin_5:
GPIO->PAFUNC0.PA5 = value;
break;
case GPIO_Pin_6:
GPIO->PAFUNC0.PA6 = value;
break;
case GPIO_Pin_7:
GPIO->PAFUNC0.PA7 = value;
break;
case GPIO_Pin_8:
GPIO->PAFUNC1.PA8 = value;
break;
case GPIO_Pin_9:
GPIO->PAFUNC1.PA9 = value;
break;
case GPIO_Pin_10:
GPIO->PAFUNC1.PA10 = value;
break;
case GPIO_Pin_11:
GPIO->PAFUNC1.PA11 = value;
break;
case GPIO_Pin_12:
GPIO->PAFUNC1.PA12 = value;
break;
case GPIO_Pin_13:
GPIO->PAFUNC1.PA13 = value;
break;
case GPIO_Pin_14:
GPIO->PAFUNC1.PA14 = value;
break;
case GPIO_Pin_15:
GPIO->PAFUNC1.PA15 = value;
break;
case GPIO_Pin_16:
GPIO->PAFUNC2.PA16 = value;
break;
case GPIO_Pin_17:
GPIO->PAFUNC2.PA17 = value;
break;
case GPIO_Pin_18:
GPIO->PAFUNC2.PA18 = value;
break;
case GPIO_Pin_19:
GPIO->PAFUNC2.PA19 = value;
break;
case GPIO_Pin_20:
GPIO->PAFUNC2.PA20 = value;
break;
case GPIO_Pin_21:
GPIO->PAFUNC2.PA21 = value;
break;
case GPIO_Pin_22:
GPIO->PAFUNC2.PA22 = value;
break;
case GPIO_Pin_23:
GPIO->PAFUNC2.PA23 = value;
break;
case GPIO_Pin_24:
GPIO->PAFUNC3.PA24 = value;
break;
case GPIO_Pin_25:
GPIO->PAFUNC3.PA25 = value;
break;
case GPIO_Pin_26:
GPIO->PAFUNC3.PA26 = value;
break;
case GPIO_Pin_27:
GPIO->PAFUNC3.PA27 = value;
break;
case GPIO_Pin_28:
GPIO->PAFUNC3.PA28 = value;
break;
case GPIO_Pin_29:
GPIO->PAFUNC3.PA29 = value;
break;
case GPIO_Pin_30:
GPIO->PAFUNC3.PA30 = value;
break;
case GPIO_Pin_31:
GPIO->PAFUNC3.PA31 = value;
break;
default:
break;
}
}
return;
}
/***************************************************************
函数名GPIO_SetSingalTypeFromPin
描 述:设置引脚的信号类型
输入值Pin: 目的引脚
Signal: 引脚的信号类型
输出值:无
返回值:无
***************************************************************/
void GPIO_SetSingalTypeFromPin(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_Pin_Signal GPIO_Signal)
{
if(GPIOx == GPIOB) {
if (GPIO_Signal == GPIO_Pin_Signal_Digital)
GPIO->PBINEB.Word &= (~(1 << PINx));
else
GPIO->PBINEB.Word |= (1 << PINx);
}
else{
if (GPIO_Signal == GPIO_Pin_Signal_Digital)
GPIO->PAINEB.Word &= (~(1 << PINx));
else
GPIO->PAINEB.Word |= (1 << PINx);
}
return;
}
/***************************************************************
函数名GPIO_SetDirRegFromPin
描 述:设置引脚的输入或输出方向
输入值Pin: 目的引脚
Dir引脚方向
输出值:无
返回值:无
***************************************************************/
void GPIO_SetDirRegFromPin(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_TYPE_DIR Dir)
{
if (GPIOx == GPIOB) {
if (Dir == GPIO_Dir_In)
GPIO->PBDIRBSR.Word = (1 << PINx);
else
GPIO->PBDIRBCR.Word = (1 << PINx);
}
else {
if (Dir == GPIO_Dir_In)
GPIO->PADIRBSR.Word = (1 << PINx);
else
GPIO->PADIRBCR.Word = (1 << PINx);
}
return;
}
/***************************************************************
函数名GPIO_SetODERegFromPin
描 述:设置引脚的输出开漏方式
输入值Pin: 目的引脚
ODE: 输出开漏方式
输出值:无
返回值:无
***************************************************************/
void GPIO_SetODERegFromPin(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_ODE_Output ODE)
{
if (GPIOx == GPIOB) {
if (ODE == GPIO_ODE_Output_Disable)
GPIO->PBODE.Word &= (~(1 << PINx));
else
GPIO->PBODE.Word |= (1 << PINx);
}
else {
if (ODE == GPIO_ODE_Output_Disable)
GPIO->PAODE.Word &= (~(1 << PINx));
else
GPIO->PAODE.Word |= (1 << PINx);
}
return;
}
/***************************************************************
函数名GPIO_SetDSRegFromPin
描 述:设置引脚的输出驱动能力
输入值Pin: 目的引脚
DS: 电流驱动方式
输出值:无
返回值:无
***************************************************************/
void GPIO_SetDSRegFromPin(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_TYPE_DS DS)
{
if (GPIOx == GPIOB) {
if (DS == GPIO_DS_Output_Normal)
GPIO->PBDS.Word &= (~(1 << PINx));
else
GPIO->PBDS.Word |= (1 << PINx);
}
else {
if (DS == GPIO_DS_Output_Normal)
GPIO->PADS.Word &= (~(1 << PINx));
else
GPIO->PADS.Word |= (1 << PINx);
}
return;
}
/***************************************************************
函数名GPIO_SetPUERegFromPin
描 述:设置引脚的弱上拉方式
输入值Pin: 目的引脚
PUE: 弱上拉方式
输出值:无
返回值:无
***************************************************************/
void GPIO_SetPUERegFromPin(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_PUE_Input PUE)
{
if (GPIOx == GPIOB) {
if (PUE == GPIO_PUE_Input_Disable)
GPIO->PBPUE.Word &= (~(1 << PINx));
else
GPIO->PBPUE.Word |= (1 << PINx);
}
else {
if (PUE == GPIO_PUE_Input_Disable)
GPIO->PAPUE.Word &= (~(1 << PINx));
else
GPIO->PAPUE.Word |= (1 << PINx);
}
}
/***************************************************************
函数名GPIO_SetPDERegFromPin
描 述:设置引脚的弱下拉方式
输入值Pin: 目的引脚
PDE弱下拉方式
输出值:无
返回值:无
***************************************************************/
void GPIO_SetPDERegFromPin(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx, GPIO_PDE_Input PDE)
{
if (GPIOx == GPIOB) {
if (PDE == GPIO_PDE_Input_Disable)
GPIO->PBPDE.Word &= (~(1 << PINx));
else
GPIO->PBPDE.Word |= (1 << PINx);
}
else {
if (PDE == GPIO_PDE_Input_Disable)
GPIO->PAPDE.Word &= (~(1 << PINx));
else
GPIO->PAPDE.Word |= (1 << PINx);
}
return;
}
/***************************************************************
函数名GPIO_Write
描 述GPIO端口写数据
输入值GPIOx可以是GPIOA/GPIOB 、 Value要写的数据——注意有些不存在的引脚设置的值相对应的位是无作用的
输出值:无
返回值:无
***************************************************************/
void GPIO_Write(GPIO_TYPE GPIOx, uint32_t Value)
{
if(GPIOx == GPIOA)
GPIO->PADATA.Word = Value;
else if(GPIOx == GPIOB)
GPIO->PBDATA.Word = Value;
}
/***************************************************************
函数名GPIO_Read
描 述GPIO端口读数据
输入值GPIOx可以是GPIOA/GPIOB
输出值:无
返回值:读出的数据——注意:有些不存在的引脚,读出的值相对应的位是无效的
***************************************************************/
uint32_t GPIO_Read(GPIO_TYPE GPIOx)
{
if(GPIOx == GPIOA)
return GPIO->PAPORT.Word;
else if(GPIOx == GPIOB)
return GPIO->PBPORT.Word;
return 0;
}
/***************************************************************
函数名GPIO_ReadBit
描 述GPIO端口读某位数据
输入值GPIOx可以是GPIOA/GPIOB 、 PINx:GPIO_Pin_0 —— GPIO_Pin_31
输出值:无
返回值:读出的数据——注意:有些不存在的引脚,读出的值是无效的
***************************************************************/
PinStatus GPIO_ReadBit(GPIO_TYPE GPIOx,GPIO_TYPE_PIN PINx)
{
PinStatus bitstatus = RESET;
if(GPIOx == GPIOA)
{
if((GPIO->PAPORT.Word&((uint32_t)0x1<<PINx)) != RESET)
bitstatus = SET;
else
bitstatus = RESET;
}
else if(GPIOx == GPIOB)
{
if((GPIO->PBPORT.Word&((uint32_t)0x1<<PINx)) != RESET)
bitstatus = SET;
else
bitstatus = RESET;
}
return bitstatus;
}
/***************************************************************
函数名GPIOA_SetBit
描 述GPIOA某引脚置1
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_31
输出值:无
返回值:无
***************************************************************/
void GPIOA_SetBit(GPIO_TYPE_PIN PINx)
{
GPIO->PADATABSR.Word = (uint32_t)0x1<<PINx;
}
/***************************************************************
函数名GPIOA_ResetBit
描 述GPIOA某引脚清0
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_31
输出值:无
返回值:无
***************************************************************/
void GPIOA_ResetBit(GPIO_TYPE_PIN PINx)
{
GPIO->PADATABCR.Word = (uint32_t)0x1<<PINx;
}
/***************************************************************
函数名GPIOA_ToggleBit
描 述GPIOA某引脚输出状态取反
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_31
输出值:无
返回值:无
***************************************************************/
void GPIOA_ToggleBit(GPIO_TYPE_PIN PINx)
{
GPIO->PADATABRR.Word = (uint32_t)0x1<<PINx;
}
/***************************************************************
函数名GPIOB_SetBit
描 述GPIOB某引脚置1
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_13
输出值:无
返回值:无
***************************************************************/
void GPIOB_SetBit(GPIO_TYPE_PIN PINx)
{
GPIO->PBDATABSR.Word = (uint32_t)0x1<<PINx;
}
/***************************************************************
函数名GPIOB_ResetBit
描 述GPIOB某引脚清0
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_13
输出值:无
返回值:无
***************************************************************/
void GPIOB_ResetBit(GPIO_TYPE_PIN PINx)
{
GPIO->PBDATABCR.Word = (uint32_t)0x1<<PINx;
}
/***************************************************************
函数名GPIOB_ToggleBit
描 述GPIOB某引脚输出状态取反
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_13
输出值:无
返回值:无
***************************************************************/
void GPIOB_ToggleBit(GPIO_TYPE_PIN PINx)
{
GPIO->PBDATABRR.Word = (uint32_t)0x1<<PINx;
}
/***************************************************************
函数名GPIOA_SetDirection
描 述GPIOA某引脚设置方向
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_31 、 Dir_TypeGPIO_Dir_Out/GPIO_Dir_In
输出值:无
返回值:无
***************************************************************/
void GPIOA_SetDirection(GPIO_TYPE_PIN PINx, GPIO_TYPE_DIR Dir_Type)
{
GPIO->PADIR.Word &=~((uint32_t)0x1 << PINx);
GPIO->PADIR.Word |= ((uint32_t)Dir_Type <<PINx);
}
/***************************************************************
函数名GPIOB_SetDirection
描 述GPIOB某引脚设置方向
输入值PINx可以是GPIO_Pin_0 —— GPIO_Pin_13 、 Dir_TypeGPIO_Dir_Out/GPIO_Dir_In
输出值:无
返回值:无
***************************************************************/
void GPIOB_SetDirection(GPIO_TYPE_PIN PINx, GPIO_TYPE_DIR Dir_Type)
{
GPIO->PBDIR.Word &=~((uint32_t)0x1 << PINx);
GPIO->PBDIR.Word |= ((uint32_t)Dir_Type <<PINx);
}
/***************************************************************
函数名Buzz_Config
描 述Buzz配置
输入值Buzz_en:Buzz是否使能freq:频率
输出值:无
返回值:无
***************************************************************/
void Buzz_Config(TYPE_BUZZEN buzz_en, uint32_t freq)
{
GPIO->BUZC.BUZ_LOAD = (SystemCoreClock/(freq*2)) - 1;
GPIO->BUZC.BUZEN = buzz_en;
}
/***************************************************************
函数名PINT_Config
描 述PINT配置
输入值PINTx可选PINT0 —— PINT7 、 SELx输入选择 、 TRIGx触发选择
输出值:无
返回值:无
***************************************************************/
void PINT_Config(PINT_TYPE PINTx, PINT_TYPE_SEL SELx, PINT_TYPE_TRIG TRIGx)
{
GPIO->PINTSEL.Word &= ~((uint32_t)0x07<<(PINTx*4));
GPIO->PINTSEL.Word |=((uint32_t)SELx << (PINTx*4)); //sel选择
GPIO->PINTCFG.Word &= ~((uint32_t)0x07<<(PINTx*4));
GPIO->PINTCFG.Word |=((uint32_t)TRIGx << (PINTx*4)); //触发方式选择
}
/***************************************************************
函数名PINT_GetIFStatus
描 述PINT读取中断标志
输入值PINTxPINT0-PINT7
输出值:无
返回值SET/RESET
***************************************************************/
FlagStatus PINT_GetIFStatus(PINT_TYPE_IT PINT_Flag)
{
FlagStatus bitstatus = RESET;
if((GPIO->PINTIF.Word & (uint32_t)PINT_Flag) != (uint32_t)RESET)
bitstatus = SET;
else
bitstatus = RESET;
return bitstatus;
}
/***************************************************************
函数名PINT_GetITStatus
描 述PINT读取中断标志
输入值PINTxPINT0-PINT7
输出值:无
返回值SET/RESET
***************************************************************/
FlagStatus PINT_GetITStatus(PINT_TYPE_IT PINT_Flag)
{
FlagStatus bitstatus = RESET;
if((GPIO->PINTIF.Word & (uint32_t)PINT_Flag) != (uint32_t)RESET)
bitstatus = SET;
else
bitstatus = RESET;
return bitstatus;
}
/***************************************************************
函数名PINT_ClearITPendingBit
描 述PINT清除中断标志
输入值PINT中断类型
输出值:无
返回值:无
***************************************************************/
void PINT_ClearITPendingBit(PINT_TYPE_IT PINT_Flag)
{
GPIO->PINTIF.Word = (uint32_t)PINT_Flag;
}
/*************************END OF FILE**********************/
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