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Shmingo-HAL/SHAL/Include/Peripheral/ADC/Reg/SHAL_ADC_REG_L432KC.h
Ea-r-th 6c8fa459f8 Finished ADC, updating timer code
2025-10-17 00:59:12 -07:00

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//
// Created by Luca on 10/8/2025.
//
#ifndef SHMINGO_HAL_SHAL_ADC_REG_L432KC_H
#define SHMINGO_HAL_SHAL_ADC_REG_L432KC_H
#include "SHAL_CORE.h"
#include "SHAL_ADC_TYPES.h"
#define SHAL_ADC1 SHAL_ADC(1)
#define NUM_ADCS 1
#define NUM_ADC_CHANNELS 16
enum class SHAL_ADC_Channel : uint32_t {
CH0,
CH1,
CH2,
CH3,
CH4,
CH5,
CH6,
CH7,
CH8,
CH9,
CH10,
CH11,
CH12,
CH13,
CH14,
CH15,
CHTemp,
CHRef,
CHBat
};
enum class ADC_Key : uint8_t{
S_ADC1 = 0,
NUM_ADC = 1,
INVALID = 255
};
enum class ADC_Clock_Source : uint8_t {
SHAL_SYSCLK,
SHAL_PLLSAI1,
SHAL_PLL,
SHAL_MSI
};
static volatile ADC_TypeDef* ADC_TABLE[1] = { //Lookup table for ADCs
ADC1,
};
SHAL_ADC_Common_Control_Reg getADCCommonControl() {
return {&ADC1_COMMON->CCR ,ADC_CCR_VREFEN,ADC_CCR_TSEN,ADC_CCR_VBATEN};
}
SHAL_ADC_RCC_Enable_Reg getADCRCCEnableRegister(ADC_Key key){
SHAL_ADC_RCC_Enable_Reg res = {nullptr, RCC_AHB2ENR_ADCEN};
res.reg = &(ADC_TABLE[static_cast<uint8_t>(key)]->ISR);
return res;
}
SHAL_ADC_Control_Reg getADCControlReg(ADC_Key key) {
SHAL_ADC_Control_Reg res = {nullptr, ADC_CR_ADEN, ADC_CR_ADDIS, ADC_CR_ADCAL, ADC_CR_ADSTART};
res.reg = &(ADC_TABLE[static_cast<uint8_t>(key)]->CR);
return res;
}
SHAL_ADC_Config_Reg getADCConfigReg(ADC_Key key) {
SHAL_ADC_Config_Reg res = {nullptr, ADC_CFGR_CONT, ADC_CFGR_RES_Pos, ADC_CFGR_ALIGN_Pos};
res.reg = &(ADC_TABLE[static_cast<uint8_t>(key)]->CFGR);
return res;
}
SHAL_ADC_ISR_Reg getADCISRReg(ADC_Key key){
SHAL_ADC_ISR_Reg res = {nullptr, ADC_ISR_EOC, ADC_ISR_EOS, ADC_ISR_ADRDY};
res.reg = &(ADC_TABLE[static_cast<uint8_t>(key)]->ISR);
return res;
}
SHAL_ADC_Data_Reg getADCDataReg(ADC_Key key){
SHAL_ADC_Data_Reg res = {nullptr, 0xFFFF};
res.reg = &(ADC_TABLE[static_cast<uint8_t>(key)]->DR);
return res;
}
SHAL_ADC_Clock_Reg getADCClockSelectRegister(ADC_Clock_Source clockSource) {
SHAL_ADC_Clock_Reg res = {&RCC->CCIPR, RCC_CCIPR_ADCSEL_Msk, 1U << RCC_CCIPR_ADCSEL_Pos}; //Default to PLLSAI1
switch(clockSource){
case ADC_Clock_Source::SHAL_PLLSAI1:
res.mask = 1U << RCC_CCIPR_ADCSEL_Pos;
case ADC_Clock_Source::SHAL_PLL:
res.mask = 2U << RCC_CCIPR_ADCSEL_Pos;
case ADC_Clock_Source::SHAL_SYSCLK:
res.mask = 3U << RCC_CCIPR_ADCSEL_Pos;
case ADC_Clock_Source::SHAL_MSI:
break; //TODO implement this
}
return res;
}
SHAL_ADC_Channel_Sampling_Time_Reg getADCChannelSamplingTimeRegister(ADC_Key key, SHAL_ADC_Channel channel){
volatile ADC_TypeDef* ADCReg = ADC_TABLE[static_cast<uint8_t>(key)];
volatile uint32_t* SMPReg = nullptr;
uint32_t pos;
auto channelNum = static_cast<uint8_t>(channel);
if (channelNum <= 9) {
SMPReg = &ADCReg->SQR1;
pos = (channelNum * 3);
} else {
SMPReg = &ADCReg->SQR2;
pos = ((channelNum - 10) * 3);
}
return {SMPReg, pos};
}
SHAL_ADC_Sequence_Amount_Reg getADCSequenceAmountRegister(ADC_Key key){
SHAL_ADC_Sequence_Amount_Reg res = {nullptr, ADC_SQR1_L_Pos};
res.reg = &(ADC_TABLE[static_cast<uint8_t>(key)]->SQR1);
return res;
}
SHAL_ADC_Sequence_Reg getADCSequenceRegisters(ADC_Key key){
volatile ADC_TypeDef* adc_reg = ADC_TABLE[static_cast<uint8_t>(key)];
SHAL_ADC_Sequence_Reg res = {{&adc_reg->SQR1,
&adc_reg->SQR2,
&adc_reg->SQR3,
&adc_reg->SQR4,
nullptr,
nullptr},
{1UL << 0,
1UL << 6,
1UL << 12,
1UL << 18,
1UL << 24}
};
return res;
}
constexpr ADC_TypeDef* getADCRegister(ADC_Key key){
switch(key){
case ADC_Key::S_ADC1:
return ADC1;
case ADC_Key::NUM_ADC:
case ADC_Key::INVALID:
return nullptr;
}
__builtin_unreachable();
}
#endif //SHMINGO_HAL_SHAL_ADC_REG_L432KC_H
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