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303
component/common/mbed/targets/hal/rtl8195a/analogin_api.c
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303
component/common/mbed/targets/hal/rtl8195a/analogin_api.c
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/* mbed Microcontroller Library
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*******************************************************************************
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* Copyright (c) 2014, Realtek Semiconductor Corp.
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* All rights reserved.
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*
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* This module is a confidential and proprietary property of RealTek and
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* possession or use of this module requires written permission of RealTek.
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*******************************************************************************
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*/
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#include "objects.h"
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#include "PinNames.h"
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#include "hal_adc.h"
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#include "analogin_api.h"
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#include "analogin_ex_api.h"
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#if CONFIG_ADC_EN
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//#include "cmsis.h"
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#include "pinmap.h"
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extern u32 ConfigDebugErr;
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extern u32 ConfigDebuginfo;
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static SAL_ADC_TRANSFER_BUF adcrxtranbuf;
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void analogin_internal_dma_callback(void *data) {
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analogin_t *obj = (analogin_t *)data;
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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uint8_t AnaloginIdx = 0;
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uint8_t AnaloginSec;
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uint32_t AnaloginCnt;
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uint32_t AnaloginUsserDatCnt;
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uint32_t AnaloginDatTmp;
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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AnaloginIdx = pSalADCHND->DevNum;
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AnaloginSec = pSalADCHND->DevNum>>1;
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DBG_ADC_INFO("%s\n", __func__);
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for (AnaloginCnt = 0; AnaloginCnt < 16; AnaloginCnt+=2) {
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DBG_ADC_INFO("[%04x]: %08x %08x \n", AnaloginCnt, *(pSalADCHND->pRXBuf->pDataBuf + AnaloginCnt),
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*(pSalADCHND->pRXBuf->pDataBuf+AnaloginCnt+1));
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}
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for(AnaloginCnt = 0, AnaloginUsserDatCnt = 0; AnaloginCnt < pSalADCHND->pRXBuf->DataLen; AnaloginCnt++) {
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if ((AnaloginCnt & BIT0) == AnaloginSec) {
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AnaloginDatTmp = *(pSalADCHND->pRXBuf->pDataBuf + AnaloginCnt);
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AnaloginDatTmp = AnaloginDatTmp & (0xFFFF << ((AnaloginIdx & BIT0)*16));
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AnaloginDatTmp = AnaloginDatTmp >> ((AnaloginIdx & BIT0)*16);
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*(pSalADCHND->pRXBuf->pUserDataBuf + AnaloginUsserDatCnt) = (u16)AnaloginDatTmp;
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AnaloginUsserDatCnt++;
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}
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}
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RtlMfree(pSalADCHND->pRXBuf->pDataBuf, pSalADCHND->pRXBuf->DataLen*sizeof(uint32_t));
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if (pSalADCHND->pUserCB->pDMARXCCB->USERCB != NULL) {
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pSalADCHND->pUserCB->pDMARXCCB->USERCB((VOID*) pSalADCHND->pUserCB->pDMARXCCB->USERData);
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}
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}
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void analogin_init (analogin_t *obj, PinName pin){
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uint32_t adc_idx;
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_USERCB_ADPT pSalADCUserCBAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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HAL_ADC_INIT_DAT HalADCInitDataTmp;
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PHAL_ADC_INIT_DAT pHalADCInitDataTmp = &HalADCInitDataTmp;
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/* To backup user config first */
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_memcpy(pHalADCInitDataTmp, &(obj->HalADCInitData), sizeof(HAL_ADC_INIT_DAT));
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_memset(obj, 0x00, sizeof(analogin_t));
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ConfigDebugErr &= (~(_DBG_ADC_|_DBG_GDMA_));
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ConfigDebugInfo&= (~(_DBG_ADC_|_DBG_GDMA_));
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adc_idx = pin & 0x0F;
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/* Get I2C device handler */
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCUserCBAdpt = (PSAL_ADC_USERCB_ADPT)&(obj->SalADCUserCBAdpt);
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/*To assign the rest pointers*/
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pSalADCMngtAdpt->pSalHndPriv = &(obj->SalADCHndPriv);
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pSalADCMngtAdpt->pSalHndPriv->ppSalADCHnd = (void**)&(pSalADCMngtAdpt->pSalHndPriv);
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/* To assign the default (ROM) HAL OP initialization function */
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pSalADCMngtAdpt->pHalOpInit = &HalADCOpInit;
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/* To assign the default (ROM) HAL GDMA OP initialization function */
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pSalADCMngtAdpt->pHalGdmaOpInit = &HalGdmaOpInit;
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/* To assign the default (ROM) SAL interrupt function */
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pSalADCMngtAdpt->pSalIrqFunc = &ADCISRHandle;
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/* To assign the default (ROM) SAL DMA TX interrupt function */
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pSalADCMngtAdpt->pSalDMAIrqFunc = &ADCGDMAISRHandle;
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/* To backup user config first */
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//_memcpy(pHalADCInitDataTmp, &(obj->HalADCInitData), sizeof(HAL_ADC_INIT_DAT));
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pSalADCMngtAdpt->pHalInitDat = &(obj->HalADCInitData);
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pSalADCMngtAdpt->pHalOp = &(obj->HalADCOp);
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pSalADCMngtAdpt->pIrqHnd = &(obj->ADCIrqHandleDat);
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pSalADCMngtAdpt->pHalGdmaAdp = &(obj->HalADCGdmaAdpt);
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pSalADCMngtAdpt->pHalGdmaOp = &(obj->HalADCGdmaOp);
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pSalADCMngtAdpt->pIrqGdmaHnd = &(obj->ADCGdmaIrqHandleDat);
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pSalADCMngtAdpt->pUserCB = &(obj->SalADCUserCB);
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/* Assign the private SAL handle to public SAL handle */
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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/* Assign the internal HAL initial data pointer to the SAL handle */
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pSalADCHND->pInitDat = pSalADCMngtAdpt->pHalInitDat;
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/* Assign the internal user callback pointer to the SAL handle */
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pSalADCHND->pUserCB = pSalADCMngtAdpt->pUserCB;
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/*To assign user callback pointers*/
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pSalADCMngtAdpt->pUserCB->pRXCB = pSalADCUserCBAdpt;
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pSalADCMngtAdpt->pUserCB->pRXCCB = (pSalADCUserCBAdpt+1);
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pSalADCMngtAdpt->pUserCB->pERRCB = (pSalADCUserCBAdpt+2);
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pSalADCMngtAdpt->pUserCB->pIDMARXCCB= (pSalADCUserCBAdpt+3);
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pSalADCMngtAdpt->pUserCB->pDMARXCB = (pSalADCUserCBAdpt+4);
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pSalADCMngtAdpt->pUserCB->pDMARXCCB = (pSalADCUserCBAdpt+5);
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/*
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pSalADCMngtAdpt->pUserCB->pTXCB = pSalADCUserCBAdpt;
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pSalADCMngtAdpt->pUserCB->pTXCCB = (pSalADCUserCBAdpt+1);
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pSalADCMngtAdpt->pUserCB->pRXCB = (pSalADCUserCBAdpt+2);
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pSalADCMngtAdpt->pUserCB->pRXCCB = (pSalADCUserCBAdpt+3);
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pSalADCMngtAdpt->pUserCB->pRDREQCB = (pSalADCUserCBAdpt+4);
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pSalADCMngtAdpt->pUserCB->pERRCB = (pSalADCUserCBAdpt+5);
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pSalADCMngtAdpt->pUserCB->pDMATXCB = (pSalADCUserCBAdpt+6);
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pSalADCMngtAdpt->pUserCB->pDMATXCCB = (pSalADCUserCBAdpt+7);
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pSalADCMngtAdpt->pUserCB->pDMARXCB = (pSalADCUserCBAdpt+8);
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pSalADCMngtAdpt->pUserCB->pDMARXCCB = (pSalADCUserCBAdpt+9);
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*/
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/* Set ADC Device Number */
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pSalADCHND->DevNum = adc_idx;
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/* Load ADC default value */
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RtkADCLoadDefault(pSalADCHND);
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/* Assign ADC Pin Mux */
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pSalADCHND->PinMux = 0;
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pSalADCHND->OpType = ADC_RDREG_TYPE;
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/* Load user setting */
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if ((pHalADCInitDataTmp->ADCEndian == ADC_DATA_ENDIAN_LITTLE) || (pHalADCInitDataTmp->ADCEndian == ADC_DATA_ENDIAN_BIG)) {
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pSalADCHND->pInitDat->ADCEndian = pHalADCInitDataTmp->ADCEndian;
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}
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if ((pHalADCInitDataTmp->ADCAudioEn != ADC_FEATURE_DISABLED) && (pHalADCInitDataTmp->ADCAudioEn < 2)) {
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pSalADCHND->pInitDat->ADCAudioEn = pHalADCInitDataTmp->ADCAudioEn;
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}
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/* Init ADC now */
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pSalADCHND->pInitDat->ADCBurstSz = 8;
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pSalADCHND->pInitDat->ADCOneShotTD = 8;
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RtkADCInit(pSalADCHND);
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}
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float analogin_read(analogin_t *obj){
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float value;
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uint32_t AnaloginTmp[2] = {0,0};
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uint32_t AnaloginDatMsk = 0xFFFF;
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uint8_t AnaloginIdx = 0;
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uint32_t AnalogDat = 0;
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uint32_t AnalogDatFull = 0;
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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AnaloginIdx = pSalADCHND->DevNum;
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RtkADCReceiveBuf(pSalADCHND,&AnaloginTmp[0]);
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AnaloginDatMsk = (u32)(AnaloginDatMsk<<((u32)(16*(AnaloginIdx&0x01))));
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AnalogDat = AnaloginTmp[(AnaloginIdx/2)];
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AnalogDat = (AnalogDat & AnaloginDatMsk);
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AnalogDat = (AnalogDat>>((u32)(16*(AnaloginIdx&0x01))));
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AnalogDatFull = 0xCE80;
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value = (float)(AnalogDat) / (float)(AnalogDatFull);
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return (float)value;
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}
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uint16_t analogin_read_u16(analogin_t *obj){
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uint32_t AnaloginTmp[2] = {0,0};
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uint32_t AnaloginDatMsk = 0xFFFF;
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uint8_t AnaloginIdx = 0;
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uint32_t AnalogDat = 0;
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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AnaloginIdx = pSalADCHND->DevNum;
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RtkADCRxManualRotate(pSalADCHND,&AnaloginTmp[0]);
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//DBG_8195A("[0]:%08x, %08x\n", AnaloginTmp[0], AnaloginTmp[1] );
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AnaloginDatMsk = (u32)(AnaloginDatMsk<<((u32)(16*(AnaloginIdx&0x01))));
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AnalogDat = AnaloginTmp[(AnaloginIdx/2)];
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AnalogDat = (AnalogDat & AnaloginDatMsk);
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AnalogDat = (AnalogDat>>((u32)(16*(AnaloginIdx&0x01))));
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return (uint16_t)AnalogDat;
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}
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void analogin_deinit(analogin_t *obj){
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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/* To deinit analogin */
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RtkADCDeInit(pSalADCHND);
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}
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void analogin_set_user_callback (analogin_t * obj, AnalogInCallback analogin_cb, void(* analogin_callback)(void *)){
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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switch (analogin_cb) {
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case ANALOGIN_RX_DMA_COMPLETE:
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pSalADCHND->pUserCB->pDMARXCCB->USERCB = analogin_callback;
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break;
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default:
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break;
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}
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}
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void analogin_clear_user_callback (analogin_t * obj, AnalogInCallback analogin_cb){
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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switch (analogin_cb) {
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case ANALOGIN_RX_DMA_COMPLETE:
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pSalADCHND->pUserCB->pDMARXCB = NULL;
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break;
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default:
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break;
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}
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}
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uint8_t analogin_read_u16_dma (analogin_t * obj, uint16_t *buf, uint16_t length) {
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PSAL_ADC_MNGT_ADPT pSalADCMngtAdpt = NULL;
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PSAL_ADC_HND pSalADCHND = NULL;
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uint8_t AnaloginIdx = 0;
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pSalADCMngtAdpt = &(obj->SalADCMngtAdpt);
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pSalADCHND = &(pSalADCMngtAdpt->pSalHndPriv->SalADCHndPriv);
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if (length > (uint16_t)(MAX_DMA_BLOCK_SIZE/2)) {
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DBG_ADC_ERR("Data length is more than supported size.\n");
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return 1;
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}
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_memset(&adcrxtranbuf, 0x0000, sizeof(adcrxtranbuf));
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AnaloginIdx = pSalADCHND->DevNum;
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pSalADCHND->pRXBuf = &adcrxtranbuf;
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pSalADCHND->OpType = ADC_DMA_TYPE;
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DBG_ADC_INFO("ch%d, DMA len: %d, ptr: %x\n", AnaloginIdx, length, buf);
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pSalADCHND->pUserCB->pIDMARXCCB->USERCB = analogin_internal_dma_callback;
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pSalADCHND->pUserCB->pIDMARXCCB->USERData = (u32)obj;
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pSalADCHND->pRXBuf->pDataBuf = (u32 *)RtlZmalloc(sizeof(uint32_t)*length*2);
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pSalADCHND->pRXBuf->pUserDataBuf = (u16 *)buf;
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pSalADCHND->pRXBuf->DataLen = length*2;
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RtkADCReceiveDMA(pSalADCHND, 0);
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return 0;
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}
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#endif
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