lucalizaranzu/Shmingo-HAL
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Updated GPIO to new format

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This commit is contained in:
Ea-r-th
2025-11-03 23:17:55 -08:00
parent 0b4a6ef584
commit aa7a041946
15 changed files with 264 additions and 244 deletions
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1
SHAL/Src/STM32L4XX/Core/SHAL_CORE.cpp
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@@ -18,6 +18,7 @@ void SHAL_init(){
ADCManager::getByIndex(i).init(adc_key);
}
SET_ANALOGREAD_ADC(SHAL_ADC1); //Default ADC1 for analogread calls
}

2
SHAL/Src/STM32L4XX/EXT/SHAL_EXTI_CALLBACK.cpp
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@@ -43,5 +43,5 @@ DEFINE_MULTI_EXTI_IRQ(10,15);
//Link function to EXTI line
void registerEXTICallback(GPIO_Key key, EXTICallback callback){
EXTI_callbacks[getGPIORegister(key).global_offset] = callback;
EXTI_callbacks[getGPIOPinNumber(key)] = callback;
}

14
SHAL/Src/STM32L4XX/Peripheral/ADC/SHAL_ADC.cpp
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@@ -6,7 +6,7 @@
#include "SHAL_GPIO.h"
#include "SHAL_UART.h"
#include <cstdio>
//Can hard code registers on F0 because all F0 devices have only one ADC, and use only one clock
SHAL_Result SHAL_ADC::init(ADC_Key key) {
m_ADCKey = key;
@@ -16,11 +16,6 @@ SHAL_Result SHAL_ADC::init(ADC_Key key) {
return SHAL_Result::ERROR;
}
SHAL_UART2.sendString("Init called\r\n");
PIN(B4).toggle();
SHAL_delay_ms(100);
PIN(B4).toggle();
SHAL_ADC_RCC_Enable_Reg clock_reg = getADCRCCEnableRegister(m_ADCKey); //Clock enable
SHAL_apply_bitmask(clock_reg.reg,clock_reg.mask);
@@ -115,10 +110,6 @@ SHAL_Result SHAL_ADC::multiConvertSingle(SHAL_ADC_Channel* channels, const int n
SHAL_set_bits(sampleTimeReg.reg,3,static_cast<uint8_t>(time),sampleTimeReg.channel_offset); //Set sample time register TODO un-hardcode bit width?
addADCChannelToSequence(channel,i); //Use index 0 to convert channel
if(enable() != SHAL_Result::OKAY){
return SHAL_Result::ERROR;
}
}
startConversion(); //Start ADC conversion
@@ -293,9 +284,6 @@ SHAL_Result SHAL_ADC::addADCChannelToSequence(SHAL_ADC_Channel channel, uint32_t
return SHAL_Result::OKAY;
}
SHAL_ADC &ADCManager::get(ADC_Key key) {
return m_ADCs[static_cast<uint8_t>(key)];
}

79
SHAL/Src/STM32L4XX/Peripheral/GPIO/SHAL_GPIO.cpp
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@@ -2,6 +2,7 @@
// Created by Luca on 8/30/2025.
//
#include <cstdio>
#include "SHAL_GPIO.h"
#include "SHAL_EXTI_CALLBACK.h"
@@ -20,65 +21,59 @@ SHAL_GPIO::SHAL_GPIO(GPIO_Key key) : m_GPIO_KEY(key) {
}
void SHAL_GPIO::setLow() {
auto gpioPeripheral = getGPIORegister(m_GPIO_KEY);
gpioPeripheral.reg->ODR &= ~(1 << gpioPeripheral.global_offset);
auto outputDataReg = getGPIOOutputDataRegister(m_GPIO_KEY);
SHAL_set_bits(outputDataReg.reg,1,0,outputDataReg.offset);
}
void SHAL_GPIO::setHigh() {
auto gpioPeripheral = getGPIORegister(m_GPIO_KEY);
gpioPeripheral.reg->ODR |= (1 << gpioPeripheral.global_offset);
auto outputDataReg = getGPIOOutputDataRegister(m_GPIO_KEY);
SHAL_set_bits(outputDataReg.reg,1,1,outputDataReg.offset);
}
void SHAL_GPIO::toggle() volatile {
SHAL_GPIO_Peripheral gpioPeripheral = getGPIORegister(m_GPIO_KEY);
gpioPeripheral.reg->ODR ^= (1 << gpioPeripheral.global_offset);
auto outputDataReg = getGPIOOutputDataRegister(m_GPIO_KEY);
SHAL_flip_bits(outputDataReg.reg,1,outputDataReg.offset);
}
void SHAL_GPIO::setOutputType(PinType type) volatile {
auto outputTypeReg = getGPIOOutputTypeRegister(m_GPIO_KEY);
SHAL_set_bits(outputTypeReg.reg,2,static_cast<uint8_t>(type),outputTypeReg.offset);
}
void SHAL_GPIO::setOutputSpeed(OutputSpeed speed) volatile {
auto outputSpeedReg = getGPIOOutputSpeedRegister(m_GPIO_KEY);
SHAL_set_bits(outputSpeedReg.reg,2,static_cast<uint8_t>(speed),outputSpeedReg.offset);
}
void SHAL_GPIO::setInternalResistor(InternalResistorType type) volatile {
auto pupdreg = getGPIOPUPDRegister(m_GPIO_KEY);
SHAL_set_bits(pupdreg.reg,2,static_cast<uint8_t>(type),pupdreg.offset);
}
void SHAL_GPIO::setAlternateFunction(GPIO_Alternate_Function AF) volatile {
auto alternateFunctionReg = getGPIOAlternateFunctionRegister(m_GPIO_KEY);
SHAL_set_bits(alternateFunctionReg.reg,4,static_cast<uint8_t>(AF),alternateFunctionReg.offset);
}
SHAL_Result SHAL_GPIO::setPinMode(PinMode mode) volatile {
SHAL_GPIO_Peripheral gpioPeripheral = getGPIORegister(m_GPIO_KEY);
auto pinModeReg = getGPIOModeRegister(m_GPIO_KEY);
gpioPeripheral.reg->MODER &= ~(0x03 << (2 * gpioPeripheral.global_offset));
gpioPeripheral.reg->MODER |= (static_cast<uint8_t>(mode) << (2 * gpioPeripheral.global_offset));
if(mode == PinMode::ANALOG_MODE && getGPIOPortInfo(m_GPIO_KEY).ADCChannel != SHAL_ADC_Channel::NO_ADC_MAPPING){
SHAL_UART2.sendString("Error: GPIO pin has no valid ADC mapping\r\n");
if(mode == PinMode::ANALOG_MODE && getGPIOPortInfo(m_GPIO_KEY).ADCChannel == SHAL_ADC_Channel::NO_ADC_MAPPING){
char buff[100];
sprintf(buff, "Error: GPIO pin %d has no valid ADC mapping\r\n", static_cast<uint8_t>(m_GPIO_KEY));
SHAL_UART2.sendString(buff);
return SHAL_Result::ERROR;
}
SHAL_print_register(pinModeReg.reg);
SHAL_set_bits(pinModeReg.reg,2,static_cast<uint8_t>(mode),pinModeReg.offset); //Set mode
return SHAL_Result::OKAY;
}
void SHAL_GPIO::setPinType(PinType type) volatile {
SHAL_GPIO_Peripheral gpioPeripheral = getGPIORegister(m_GPIO_KEY);
gpioPeripheral.reg->OTYPER &= ~(1 << gpioPeripheral.global_offset);
gpioPeripheral.reg->OTYPER |= (static_cast<uint8_t>(type) << gpioPeripheral.global_offset);
}
void SHAL_GPIO::setOutputSpeed(OutputSpeed speed) volatile {
SHAL_GPIO_Peripheral gpioPeripheral = getGPIORegister(m_GPIO_KEY);
gpioPeripheral.reg->OSPEEDR |= (static_cast<uint8_t>(speed) << (2 * gpioPeripheral.global_offset));
}
void SHAL_GPIO::setInternalResistor(InternalResistorType type) volatile {
SHAL_GPIO_Peripheral gpioPeripheral = getGPIORegister(m_GPIO_KEY);
gpioPeripheral.reg->PUPDR &= ~(0x03 << (2 * gpioPeripheral.global_offset));
gpioPeripheral.reg->PUPDR |= (static_cast<uint8_t>(type) << (2 * gpioPeripheral.global_offset));
}
void SHAL_GPIO::setAlternateFunction(GPIO_Alternate_Function AF) volatile {
SHAL_GPIO_Peripheral gpioPeripheral = getGPIORegister(m_GPIO_KEY);
int afrIndex = gpioPeripheral.global_offset < 8 ? 0 : 1; //Get index of AFR
gpioPeripheral.reg->AFR[afrIndex] &= ~(0xF << (gpioPeripheral.global_offset * 4));
gpioPeripheral.reg->AFR[afrIndex] |= (static_cast<int>(AF) << (gpioPeripheral.global_offset * 4));
}
void SHAL_GPIO::useAsExternalInterrupt(TriggerMode mode, EXTICallback callback) {
uint32_t gpioPin = getGPIORegister(m_GPIO_KEY).global_offset; //Use existing structs to get offset
uint32_t gpioPin = getGPIOPinNumber(m_GPIO_KEY);
setPinMode(PinMode::INPUT_MODE); //Explicitly set mode to input
@@ -118,7 +113,7 @@ uint16_t SHAL_GPIO::analogRead(SHAL_ADC_SampleTime sampleTime) {
SHAL_GPIO& GPIOManager::get(GPIO_Key key) {
unsigned int gpioPort = getGPIOPortNumber(key);
unsigned long gpioPin = getGPIORegister(key).global_offset; //Use existing structs to get offset
uint8_t gpioPin = getGPIOPinNumber(key);
if (m_gpios[gpioPort][gpioPin].m_GPIO_KEY == GPIO_Key::INVALID){
m_gpios[gpioPort][gpioPin] = SHAL_GPIO(key);

4
SHAL/Src/STM32L4XX/Peripheral/I2C/SHAL_I2C.cpp
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@@ -27,8 +27,8 @@ void SHAL_I2C::init(I2C_Pair pair) volatile {
GET_GPIO(SDA_Key).setAlternateFunction(I2CPair.SDA_Mask);
//These may be abstracted further to support multiple I2C configurations
GET_GPIO(SCL_Key).setPinType(PinType::OPEN_DRAIN);
GET_GPIO(SDA_Key).setPinType(PinType::OPEN_DRAIN);
GET_GPIO(SCL_Key).setOutputType(PinType::OPEN_DRAIN);
GET_GPIO(SDA_Key).setOutputType(PinType::OPEN_DRAIN);
GET_GPIO(SCL_Key).setOutputSpeed(OutputSpeed::HIGH_SPEED);
GET_GPIO(SDA_Key).setOutputSpeed(OutputSpeed::HIGH_SPEED);

2
SHAL/Src/STM32L4XX/Peripheral/UART/SHAL_UART.cpp
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@@ -66,7 +66,7 @@ void SHAL_UART::sendChar(char c) volatile {
auto ISR_non_fifo = getUARTISRFifoDisabled(m_key);
if(!SHAL_WAIT_FOR_CONDITION_MS((*ISR_non_fifo.reg & ISR_non_fifo.transmit_data_register_empty_mask) != 0, 500)){
PIN(B3).toggle();
PIN(B3).setHigh();
return;
}