From 2ebb8217f43b69f491620423ea4d5d5944d1f91d Mon Sep 17 00:00:00 2001
From: yincheng.zhong <634916154@qq.com>
Date: 星期六, 05 七月 2025 22:43:58 +0800
Subject: [PATCH] 格式化部分代码
---
keil/include/components/hal/UART.c | 82 ++++++++++++++++++++--------------------
1 files changed, 41 insertions(+), 41 deletions(-)
diff --git a/keil/include/components/hal/UART.c b/keil/include/components/hal/UART.c
index b409785..795a75d 100644
--- a/keil/include/components/hal/UART.c
+++ b/keil/include/components/hal/UART.c
@@ -69,7 +69,7 @@
{
enum UART_BAUD_T baud;
HIDO_UINT32 u32Baud;
-} baud_map[] =
+} baud_map[] =
{
{BAUD_1200, 1200},
{BAUD_2400, 2400},
@@ -99,7 +99,7 @@
return baud_map[i].baud;
}
}
-
+
return BAUD_115200;
}
@@ -108,11 +108,11 @@
*******************************************************************************/
/*******************************************************************************
- * Function Name :
- * Description :
- * Input :
- * Output :
- * Return :
+ * Function Name :
+ * Description :
+ * Input :
+ * Output :
+ * Return :
* Author : 杜键
* Modified Date: : 2018年4月24日
*******************************************************************************/
@@ -120,7 +120,7 @@
{
/* 初始化参数 */
HIDO_UtilBzero(&l_astUartInfo[_eUartID], sizeof(ST_UartInfo));
-
+
l_astUartInfo[_eUartID].m_eUartPort = _ePort;
return HIDO_OK;
@@ -145,7 +145,7 @@
#ifdef _USE_OS_
l_astUartInfo[_eUartID].m_mutexLock = osMutexCreate(HIDO_NULL);
#endif
-
+
struct UART_CFG_T uart_cfg =
{
.parity = UART_PARITY_NONE,
@@ -169,35 +169,35 @@
if(UART_RX_MODE_DMA == _pstInit->m_eRxMode)
{
HIDO_ArraryQueueInit(
- &l_astUartInfo[_eUartID].m_stRxArraryQueue,
- _pstInit->m_pu8RxBuf,
- _pstInit->m_u32RxBufSize,
- sizeof(HIDO_UINT8));
- return HIDO_OK;
+ &l_astUartInfo[_eUartID].m_stRxArraryQueue,
+ _pstInit->m_pu8RxBuf,
+ _pstInit->m_u32RxBufSize,
+ sizeof(HIDO_UINT8));
+ return HIDO_OK;
}
else if(UART_RX_MODE_INT == _pstInit->m_eRxMode)
{
HIDO_ArraryQueueInit(
- &l_astUartInfo[_eUartID].m_stRxArraryQueue,
- _pstInit->m_pu8RxBuf,
- _pstInit->m_u32RxBufSize,
- sizeof(HIDO_UINT8));
+ &l_astUartInfo[_eUartID].m_stRxArraryQueue,
+ _pstInit->m_pu8RxBuf,
+ _pstInit->m_u32RxBufSize,
+ sizeof(HIDO_UINT8));
}
l_astUartInfo[_eUartID].m_pu8TxBuf = _pstInit->m_pu8TxBuf;
l_astUartInfo[_eUartID].m_u32TxBufSize = _pstInit->m_u32TxBufSize;
l_astUartInfo[_eUartID].m_fnRxISR = _pstInit->m_fnRxISR;
l_astUartInfo[_eUartID].m_u32TxQueueMemberCnt = _pstInit->m_u32TxQueueMemberCnt;
-
+
uart_open(l_astUartInfo[_eUartID].m_eUartPort, &uart_cfg);
if((UART_TX_MODE_DMA == _pstInit->m_eTxMode) || (UART_TX_MODE_INT == _pstInit->m_eTxMode))
{
HIDO_VLQInit(
- &(l_astUartInfo[_eUartID].m_stTxVLQueue),
- _pstInit->m_pu8TxBuf,
- _pstInit->m_u32TxBufSize,
- _pstInit->m_u32TxQueueMemberCnt);
+ &(l_astUartInfo[_eUartID].m_stTxVLQueue),
+ _pstInit->m_pu8TxBuf,
+ _pstInit->m_u32TxBufSize,
+ _pstInit->m_u32TxQueueMemberCnt);
}
if (UART_RX_MODE_INT == _pstInit->m_eRxMode)
@@ -228,19 +228,19 @@
else if(UART_RX_MODE_INT == l_astUartInfo[_eUartID].m_eRxMode)
{
HIDO_ArraryQueueInit(
- &l_astUartInfo[_eUartID].m_stRxArraryQueue,
- l_astUartInfo[_eUartID].m_pu8RxBuf,
- l_astUartInfo[_eUartID].m_u32RxBufSize,
- sizeof(HIDO_UINT8));
+ &l_astUartInfo[_eUartID].m_stRxArraryQueue,
+ l_astUartInfo[_eUartID].m_pu8RxBuf,
+ l_astUartInfo[_eUartID].m_u32RxBufSize,
+ sizeof(HIDO_UINT8));
}
if((UART_TX_MODE_DMA == l_astUartInfo[_eUartID].m_eTxMode) || (UART_TX_MODE_INT == l_astUartInfo[_eUartID].m_eTxMode))
{
HIDO_VLQInit(
- &(l_astUartInfo[_eUartID].m_stTxVLQueue),
- l_astUartInfo[_eUartID].m_pu8TxBuf,
- l_astUartInfo[_eUartID].m_u32TxBufSize,
- l_astUartInfo[_eUartID].m_u32TxQueueMemberCnt);
+ &(l_astUartInfo[_eUartID].m_stTxVLQueue),
+ l_astUartInfo[_eUartID].m_pu8TxBuf,
+ l_astUartInfo[_eUartID].m_u32TxBufSize,
+ l_astUartInfo[_eUartID].m_u32TxQueueMemberCnt);
}
uart_receive(l_astUartInfo[_eUartID].m_eUartPort, &l_astUartInfo[_eUartID].m_u8RxValue, 1, uart_receive_callback);
@@ -274,7 +274,7 @@
.int_rx = true,
.int_tx = false,
};
-
+
uart_open(l_astUartInfo[_eUartID].m_eUartPort, &uart_cfg);
return HIDO_OK;
@@ -342,7 +342,7 @@
static void uart_receive_callback(void *dev, uint32_t err_code)
{
E_UartID eUartID = UART_ID_4G;
-
+
HIDO_UINT8 u8RecvByte = l_astUartInfo[eUartID].m_u8RxValue;
HIDO_ArraryQueueIn(&l_astUartInfo[eUartID].m_stRxArraryQueue, &u8RecvByte);
@@ -375,15 +375,15 @@
switch(l_astUartInfo[_eUartID].m_eRxMode)
{
- case UART_RX_MODE_INT:
- case UART_RX_MODE_DMA:
+ case UART_RX_MODE_INT:
+ case UART_RX_MODE_DMA:
+ {
+ if (HIDO_ArraryQueueOut(&l_astUartInfo[_eUartID].m_stRxArraryQueue, _pu8Char) == HIDO_OK)
{
- if (HIDO_ArraryQueueOut(&l_astUartInfo[_eUartID].m_stRxArraryQueue, _pu8Char) == HIDO_OK)
- {
- i32Result = HIDO_OK;
- }
- break;
+ i32Result = HIDO_OK;
}
+ break;
+ }
}
#ifdef _USE_OS_
@@ -447,7 +447,7 @@
memcpy(pstMember->m_pDataAddr, _pu8Data, _u32Len);
pstMember = HIDO_VLQGetDequeueMember(&(l_astUartInfo[_eUartID].m_stTxVLQueue));
HIDO_UnLock();
-
+
uart_send(l_astUartInfo[_eUartID].m_eUartPort, pstMember->m_pDataAddr, pstMember->m_u32DataLen, uart_send_callback);
}
}
--
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