rt-thread/bsp/synwit/swm341/libraries/SWM341_StdPeriph_Driver/SWM341_timr.c

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/******************************************************************************************************************************************
* : SWM341_timr.c
* : SWM341单片机的计数器/
* : http://www.synwit.com.cn/e/tool/gbook/?bid=1
* :
* : V1.0.0 2016130
* :
*
*
*******************************************************************************************************************************************
* @attention
*
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS WITH CODING INFORMATION
* REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME. AS A RESULT, SYNWIT SHALL NOT BE HELD LIABLE
* FOR ANY DIRECT, INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE CONTENT
* OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING INFORMATION CONTAINED HEREIN IN CONN-
* -ECTION WITH THEIR PRODUCTS.
*
* COPYRIGHT 2012 Synwit Technology
*******************************************************************************************************************************************/
#include "SWM341.h"
#include "SWM341_timr.h"
/******************************************************************************************************************************************
* : TIMR_Init()
* : TIMR定时器/
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* uint32_t mode TIMR0~4: TIMR_MODE_TIMERTIMR_MODE_COUNTERTIMR_MODE_OCTIMR_MODE_IC
* BTIMR0~11: TIMR_MODE_TIMERTIMR_MODE_OC
* uint16_t prediv 1-256
* uint32_t period /1-16777216
* uint32_t int_en 使
* :
* :
******************************************************************************************************************************************/
void TIMR_Init(TIMR_TypeDef * TIMRx, uint32_t mode, uint16_t prediv, uint32_t period, uint32_t int_en)
{
if((TIMRx == TIMR0) || (TIMRx == TIMR1) || (TIMRx == TIMR2) || (TIMRx == TIMR3) || (TIMRx == TIMR4))
{
SYS->CLKEN0 |= (0x01 << SYS_CLKEN0_TIMR_Pos);
}
else
{
SYS->CLKEN1 |= (0x01 << SYS_CLKEN1_BTIMR_Pos);
}
TIMR_Stop(TIMRx); //一些关键寄存器只能在定时器停止时设置
TIMRx->CR &= ~(TIMR_CR_MODE_Msk | TIMR_CR_CLKSRC_Msk);
TIMRx->CR |= (mode << TIMR_CR_CLKSRC_Pos);
TIMRx->PREDIV = prediv - 1;
TIMRx->LOAD = period - 1;
TIMRx->IF = (1 << TIMR_IF_TO_Pos); //清除中断标志
if(int_en) TIMRx->IE |= (1 << TIMR_IE_TO_Pos);
else TIMRx->IE &= ~(1 << TIMR_IE_TO_Pos);
switch((uint32_t)TIMRx)
{
case ((uint32_t)TIMR0):
if(int_en) NVIC_EnableIRQ(TIMR0_IRQn);
break;
case ((uint32_t)TIMR1):
if(int_en) NVIC_EnableIRQ(TIMR1_IRQn);
break;
case ((uint32_t)TIMR2):
if(int_en) NVIC_EnableIRQ(TIMR2_IRQn);
break;
case ((uint32_t)TIMR3):
if(int_en) NVIC_EnableIRQ(TIMR3_IRQn);
break;
case ((uint32_t)TIMR4):
if(int_en) NVIC_EnableIRQ(TIMR4_IRQn);
break;
case ((uint32_t)BTIMR0):
if(int_en) NVIC_EnableIRQ(BTIMR0_IRQn);
break;
case ((uint32_t)BTIMR1):
if(int_en) NVIC_EnableIRQ(BTIMR1_IRQn);
break;
case ((uint32_t)BTIMR2):
if(int_en) NVIC_EnableIRQ(BTIMR2_IRQn);
break;
case ((uint32_t)BTIMR3):
if(int_en) NVIC_EnableIRQ(BTIMR3_IRQn);
break;
case ((uint32_t)BTIMR4):
if(int_en) NVIC_EnableIRQ(BTIMR4_IRQn);
break;
case ((uint32_t)BTIMR5):
if(int_en) NVIC_EnableIRQ(BTIMR5_IRQn);
break;
case ((uint32_t)BTIMR6):
if(int_en) NVIC_EnableIRQ(BTIMR6_IRQn);
break;
case ((uint32_t)BTIMR7):
if(int_en) NVIC_EnableIRQ(BTIMR7_IRQn);
break;
case ((uint32_t)BTIMR8):
if(int_en) NVIC_EnableIRQ(BTIMR8_IRQn);
break;
case ((uint32_t)BTIMR9):
if(int_en) NVIC_EnableIRQ(BTIMR9_IRQn);
break;
case ((uint32_t)BTIMR10):
if(int_en) NVIC_EnableIRQ(BTIMR10_IRQn);
break;
case ((uint32_t)BTIMR11):
if(int_en) NVIC_EnableIRQ(BTIMR11_IRQn);
break;
}
}
/******************************************************************************************************************************************
* : TIMR_Start()
* : /
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_Start(TIMR_TypeDef * TIMRx)
{
switch((uint32_t)TIMRx)
{
case ((uint32_t)TIMR0):
TIMRG->EN |= (1 << TIMRG_EN_TIMR0_Pos);
break;
case ((uint32_t)TIMR1):
TIMRG->EN |= (1 << TIMRG_EN_TIMR1_Pos);
break;
case ((uint32_t)TIMR2):
TIMRG->EN |= (1 << TIMRG_EN_TIMR2_Pos);
break;
case ((uint32_t)TIMR3):
TIMRG->EN |= (1 << TIMRG_EN_TIMR3_Pos);
break;
case ((uint32_t)TIMR4):
TIMRG->EN |= (1 << TIMRG_EN_TIMR4_Pos);
break;
case ((uint32_t)BTIMR0):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR0_Pos);
break;
case ((uint32_t)BTIMR1):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR1_Pos);
break;
case ((uint32_t)BTIMR2):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR2_Pos);
break;
case ((uint32_t)BTIMR3):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR3_Pos);
break;
case ((uint32_t)BTIMR4):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR4_Pos);
break;
case ((uint32_t)BTIMR5):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR5_Pos);
break;
case ((uint32_t)BTIMR6):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR6_Pos);
break;
case ((uint32_t)BTIMR7):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR7_Pos);
break;
case ((uint32_t)BTIMR8):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR8_Pos);
break;
case ((uint32_t)BTIMR9):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR9_Pos);
break;
case ((uint32_t)BTIMR10):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR10_Pos);
break;
case ((uint32_t)BTIMR11):
BTIMRG->EN |= (1 << TIMRG_EN_TIMR11_Pos);
break;
}
}
/******************************************************************************************************************************************
* : TIMR_Stop()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_Stop(TIMR_TypeDef * TIMRx)
{
switch((uint32_t)TIMRx)
{
case ((uint32_t)TIMR0):
TIMRG->EN &= ~(1 << TIMRG_EN_TIMR0_Pos);
break;
case ((uint32_t)TIMR1):
TIMRG->EN &= ~(1 << TIMRG_EN_TIMR1_Pos);
break;
case ((uint32_t)TIMR2):
TIMRG->EN &= ~(1 << TIMRG_EN_TIMR2_Pos);
break;
case ((uint32_t)TIMR3):
TIMRG->EN &= ~(1 << TIMRG_EN_TIMR3_Pos);
break;
case ((uint32_t)TIMR4):
TIMRG->EN &= ~(1 << TIMRG_EN_TIMR4_Pos);
break;
case ((uint32_t)BTIMR0):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR0_Pos);
break;
case ((uint32_t)BTIMR1):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR1_Pos);
break;
case ((uint32_t)BTIMR2):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR2_Pos);
break;
case ((uint32_t)BTIMR3):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR3_Pos);
break;
case ((uint32_t)BTIMR4):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR4_Pos);
break;
case ((uint32_t)BTIMR5):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR5_Pos);
break;
case ((uint32_t)BTIMR6):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR6_Pos);
break;
case ((uint32_t)BTIMR7):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR7_Pos);
break;
case ((uint32_t)BTIMR8):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR8_Pos);
break;
case ((uint32_t)BTIMR9):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR9_Pos);
break;
case ((uint32_t)BTIMR10):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR10_Pos);
break;
case ((uint32_t)BTIMR11):
BTIMRG->EN &= ~(1 << TIMRG_EN_TIMR11_Pos);
break;
}
}
/******************************************************************************************************************************************
* : TIMR_Halt()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_Halt(TIMR_TypeDef * TIMRx)
{
TIMRx->HALT = 1;
}
/******************************************************************************************************************************************
* : TIMR_Resume()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_Resume(TIMR_TypeDef * TIMRx)
{
TIMRx->HALT = 0;
}
/******************************************************************************************************************************************
* : TIMR_GetCurValue()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* : uint32_t
* :
******************************************************************************************************************************************/
uint32_t TIMR_GetCurValue(TIMR_TypeDef * TIMRx)
{
return TIMRx->VALUE;
}
/******************************************************************************************************************************************
* : TIMR_INTEn()
* : 使
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_INTEn(TIMR_TypeDef * TIMRx)
{
TIMRx->IE |= (1 << TIMR_IE_TO_Pos);
}
/******************************************************************************************************************************************
* : TIMR_INTDis()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_INTDis(TIMR_TypeDef * TIMRx)
{
TIMRx->IE &= ~(1 << TIMR_IE_TO_Pos);
}
/******************************************************************************************************************************************
* : TIMR_INTClr()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_INTClr(TIMR_TypeDef * TIMRx)
{
TIMRx->IF = (1 << TIMR_IF_TO_Pos);
}
/******************************************************************************************************************************************
* : TIMR_INTStat()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* : uint32_t 0 TIMRx未产生中断 1 TIMRx产生了中断
* :
******************************************************************************************************************************************/
uint32_t TIMR_INTStat(TIMR_TypeDef * TIMRx)
{
return (TIMRx->IF & TIMR_IF_TO_Msk) ? 1 : 0;
}
/******************************************************************************************************************************************
* : TIMR_OC_Init()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* uint32_t match match时引脚输出电平翻转
* uint32_t match_int_en match时是否产生中断
* uint32_t init_lvl
* :
* :
******************************************************************************************************************************************/
void TIMR_OC_Init(TIMR_TypeDef * TIMRx, uint32_t match, uint32_t match_int_en, uint32_t init_lvl)
{
TIMRx->OCMAT = match;
if(init_lvl) TIMRx->OCCR |= (1 << TIMR_OCCR_INITLVL_Pos);
else TIMRx->OCCR &= ~(1 << TIMR_OCCR_INITLVL_Pos);
TIMRx->IF = (1 << TIMR_IF_OC0_Pos); //清除中断标志
if(match_int_en) TIMRx->IE |= (1 << TIMR_IE_OC0_Pos);
else TIMRx->IE &= ~(1 << TIMR_IE_OC0_Pos);
switch((uint32_t)TIMRx)
{
case ((uint32_t)TIMR0):
if(match_int_en) NVIC_EnableIRQ(TIMR0_IRQn);
break;
case ((uint32_t)TIMR1):
if(match_int_en) NVIC_EnableIRQ(TIMR1_IRQn);
break;
case ((uint32_t)TIMR2):
if(match_int_en) NVIC_EnableIRQ(TIMR2_IRQn);
break;
case ((uint32_t)TIMR3):
if(match_int_en) NVIC_EnableIRQ(TIMR3_IRQn);
break;
case ((uint32_t)TIMR4):
if(match_int_en) NVIC_EnableIRQ(TIMR4_IRQn);
break;
case ((uint32_t)BTIMR0):
if(match_int_en) NVIC_EnableIRQ(BTIMR0_IRQn);
break;
case ((uint32_t)BTIMR1):
if(match_int_en) NVIC_EnableIRQ(BTIMR1_IRQn);
break;
case ((uint32_t)BTIMR2):
if(match_int_en) NVIC_EnableIRQ(BTIMR2_IRQn);
break;
case ((uint32_t)BTIMR3):
if(match_int_en) NVIC_EnableIRQ(BTIMR3_IRQn);
break;
case ((uint32_t)BTIMR4):
if(match_int_en) NVIC_EnableIRQ(BTIMR4_IRQn);
break;
case ((uint32_t)BTIMR5):
if(match_int_en) NVIC_EnableIRQ(BTIMR5_IRQn);
break;
case ((uint32_t)BTIMR6):
if(match_int_en) NVIC_EnableIRQ(BTIMR6_IRQn);
break;
case ((uint32_t)BTIMR7):
if(match_int_en) NVIC_EnableIRQ(BTIMR7_IRQn);
break;
case ((uint32_t)BTIMR8):
if(match_int_en) NVIC_EnableIRQ(BTIMR8_IRQn);
break;
case ((uint32_t)BTIMR9):
if(match_int_en) NVIC_EnableIRQ(BTIMR9_IRQn);
break;
case ((uint32_t)BTIMR10):
if(match_int_en) NVIC_EnableIRQ(BTIMR10_IRQn);
break;
case ((uint32_t)BTIMR11):
if(match_int_en) NVIC_EnableIRQ(BTIMR11_IRQn);
break;
}
}
/******************************************************************************************************************************************
* : TIMR_OC_OutputEn()
* : 使
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_OC_OutputEn(TIMR_TypeDef * TIMRx)
{
TIMRx->OCCR &= ~(TIMR_OCCR_FORCEEN_Pos);
}
/******************************************************************************************************************************************
* : TIMR_OC_OutputDis()
* : level电平
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* uint32_t level
* :
* :
******************************************************************************************************************************************/
void TIMR_OC_OutputDis(TIMR_TypeDef * TIMRx, uint32_t level)
{
if(level) TIMRx->OCCR |= (1 << TIMR_OCCR_FORCELVL_Pos);
else TIMRx->OCCR &= ~(1 << TIMR_OCCR_FORCELVL_Pos);
TIMRx->OCCR |= (TIMR_OCCR_FORCEEN_Pos);
}
/******************************************************************************************************************************************
* : TIMR_OC_SetMatch()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* uint32_t match
* :
* :
******************************************************************************************************************************************/
void TIMR_OC_SetMatch(TIMR_TypeDef * TIMRx, uint32_t match)
{
TIMRx->OCMAT = match;
}
/******************************************************************************************************************************************
* : TIMR_OC_GetMatch()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* : uint32_t
* :
******************************************************************************************************************************************/
uint32_t TIMR_OC_GetMatch(TIMR_TypeDef * TIMRx)
{
return TIMRx->OCMAT;
}
/******************************************************************************************************************************************
* : TIMR_OC_INTEn()
* : 使
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_OC_INTEn(TIMR_TypeDef * TIMRx)
{
TIMRx->IE |= (1 << TIMR_IE_OC0_Pos);
}
/******************************************************************************************************************************************
* : TIMR_OC_INTDis()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_OC_INTDis(TIMR_TypeDef * TIMRx)
{
TIMRx->IE &= ~(1 << TIMR_IE_OC0_Pos);
}
/******************************************************************************************************************************************
* : TIMR_OC_INTClr()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* :
* :
******************************************************************************************************************************************/
void TIMR_OC_INTClr(TIMR_TypeDef * TIMRx)
{
TIMRx->IF = (1 << TIMR_IF_OC0_Pos);
}
/******************************************************************************************************************************************
* : TIMR_OC_INTStat()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4BTIMR0BTIMR1...BTIMR11
* : uint32_t 0 match未发生 1 match发生
* :
******************************************************************************************************************************************/
uint32_t TIMR_OC_INTStat(TIMR_TypeDef * TIMRx)
{
return (TIMRx->IF & TIMR_IF_OC0_Msk) ? 1 : 0;
}
/******************************************************************************************************************************************
* : TIMR_IC_Init()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* uint32_t captureH_int_en 使
* uint32_t captureL_int_en 使
* :
* :
******************************************************************************************************************************************/
void TIMR_IC_Init(TIMR_TypeDef * TIMRx, uint32_t captureH_int_en, uint32_t captureL_int_en)
{
TIMRx->IF = (TIMR_IF_ICR_Msk | TIMR_IF_ICF_Msk);
if(captureH_int_en) TIMRx->IE |= (1 << TIMR_IE_ICF_Pos);
else TIMRx->IE &= ~(1 << TIMR_IE_ICF_Pos);
if(captureL_int_en) TIMRx->IE |= (1 << TIMR_IE_ICR_Pos);
else TIMRx->IE &= ~(1 << TIMR_IE_ICR_Pos);
switch((uint32_t)TIMRx)
{
case ((uint32_t)TIMR0):
if(captureH_int_en | captureL_int_en) NVIC_EnableIRQ(TIMR0_IRQn);
break;
case ((uint32_t)TIMR1):
if(captureH_int_en | captureL_int_en) NVIC_EnableIRQ(TIMR1_IRQn);
break;
case ((uint32_t)TIMR2):
if(captureH_int_en | captureL_int_en) NVIC_EnableIRQ(TIMR2_IRQn);
break;
case ((uint32_t)TIMR3):
if(captureH_int_en | captureL_int_en) NVIC_EnableIRQ(TIMR3_IRQn);
break;
case ((uint32_t)TIMR4):
if(captureH_int_en | captureL_int_en) NVIC_EnableIRQ(TIMR4_IRQn);
break;
}
}
/******************************************************************************************************************************************
* : TIMR_IC_GetCaptureH()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* : uint32_t
* :
******************************************************************************************************************************************/
uint32_t TIMR_IC_GetCaptureH(TIMR_TypeDef * TIMRx)
{
return TIMRx->ICHIGH;
}
/******************************************************************************************************************************************
* : TIMR_IC_GetCaptureL()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* : uint32_t
* :
******************************************************************************************************************************************/
uint32_t TIMR_IC_GetCaptureL(TIMR_TypeDef * TIMRx)
{
return TIMRx->ICLOW;
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureH_INTEn()
* : 使
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_IC_CaptureH_INTEn(TIMR_TypeDef * TIMRx)
{
TIMRx->IE |= (1 << TIMR_IE_ICF_Pos);
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureH_INTDis()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_IC_CaptureH_INTDis(TIMR_TypeDef * TIMRx)
{
TIMRx->IE &= ~(1 << TIMR_IE_ICF_Pos);
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureH_INTClr()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_IC_CaptureH_INTClr(TIMR_TypeDef * TIMRx)
{
TIMRx->IF = (1 << TIMR_IF_ICF_Pos);
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureH_INTStat()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* : uint32_t 0 1
* :
******************************************************************************************************************************************/
uint32_t TIMR_IC_CaptureH_INTStat(TIMR_TypeDef * TIMRx)
{
return (TIMRx->IF & TIMR_IF_ICF_Msk) ? 1 : 0;
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureL_INTEn()
* : 使
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_IC_CaptureL_INTEn(TIMR_TypeDef * TIMRx)
{
TIMRx->IE |= (1 << TIMR_IE_ICR_Pos);
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureL_INTDis()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_IC_CaptureL_INTDis(TIMR_TypeDef * TIMRx)
{
TIMRx->IE &= ~(1 << TIMR_IE_ICR_Pos);
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureL_INTClr()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* :
* :
******************************************************************************************************************************************/
void TIMR_IC_CaptureL_INTClr(TIMR_TypeDef * TIMRx)
{
TIMRx->IF = (1 << TIMR_IF_ICR_Pos);
}
/******************************************************************************************************************************************
* : TIMR_IC_CaptureL_INTStat()
* :
* : TIMR_TypeDef * TIMRx TIMR0TIMR1TIMR2TIMR3TIMR4
* : uint32_t 0 1
* :
******************************************************************************************************************************************/
uint32_t TIMR_IC_CaptureL_INTStat(TIMR_TypeDef * TIMRx)
{
return (TIMRx->IF & TIMR_IF_ICR_Msk) ? 1 : 0;
}