Refactored timer for F0

SHAL/Src/STM32F0xx/Peripheral/ADC/SHAL_ADC.cpp

@@ -5,7 +5,7 @@
 #include "SHAL_ADC.h"
 
 //Can hard code registers on F0 because all F0 devices have only one ADC, and use only one clock
-SHAL_Result SHAL_ADC::init() {
+SHAL_Result SHAL_ADC::init(ADC_Key key) {
 
     if(m_ADCKey == ADC_Key::INVALID || m_ADCKey == ADC_Key::NUM_ADC){
         return SHAL_Result::ERROR;
@@ -81,7 +81,7 @@ uint16_t SHAL_ADC::singleConvertSingle(SHAL_ADC_Channel channel, SHAL_ADC_Sample
     return result;
 }
 
-void SHAL_ADC::multiConvertSingle(SHAL_ADC_Channel* channels, const int numChannels, uint16_t* result, SHAL_ADC_SampleTime time) {
+SHAL_Result SHAL_ADC::multiConvertSingle(SHAL_ADC_Channel* channels, int numChannels, uint16_t* result, SHAL_ADC_SampleTime time) {
     ADC_TypeDef* ADC_reg = getADCRegister(m_ADCKey);
 
     ADC->CCR |= ADC_CCR_VREFEN | ADC_CCR_TSEN; //Enable VREFINT and Temp sensor in global ADC struct

SHAL/Src/STM32F0xx/Peripheral/GPIO/SHAL_GPIO.cpp

@@ -3,7 +3,7 @@
 //
 
 #include "SHAL_GPIO.h"
-#include "SHAL_EXTI_CALLBACK.h"
+//#include "SHAL_EXTI_CALLBACK.h"
 
 
 
@@ -13,10 +13,9 @@ SHAL_GPIO::SHAL_GPIO() : m_GPIO_KEY(GPIO_Key::INVALID){
 
 SHAL_GPIO::SHAL_GPIO(GPIO_Key key) : m_GPIO_KEY(key) {
 
-    volatile unsigned long* gpioEnable = getGPIORCCEnable(key).reg;
-    unsigned long gpioOffset = getGPIORCCEnable(key).offset;
+    auto GPIORCCEnable = getGPIORCCEnable(key);
 
-    *gpioEnable |= (1 << gpioOffset); //Set enable flag
+    SHAL_set_register_value(GPIORCCEnable.reg,GPIORCCEnable.mask);
 }
 
 void SHAL_GPIO::setLow() {
@@ -54,12 +53,23 @@ void SHAL_GPIO::setAlternateFunction(GPIO_Alternate_Function AF) volatile {
     SHAL_set_bits(alternateFunctionReg.reg,4,static_cast<uint8_t>(AF),alternateFunctionReg.offset);
 }
 
-void SHAL_GPIO::setPinMode(PinMode mode) volatile {
-    SHAL_GPIO_Peripheral gpioPeripheral = getGPIORegister(m_GPIO_KEY);
-    gpioPeripheral.reg->MODER &= ~(0x03 << (2 * gpioPeripheral.global_offset)); //Clear any previous mode
-    gpioPeripheral.reg->MODER |= (static_cast<uint8_t>(mode) << (2 * gpioPeripheral.global_offset)); //Set mode based on pinmode bit structure
+SHAL_Result SHAL_GPIO::setPinMode(PinMode mode) volatile {
+    auto pinModeReg = getGPIOModeRegister(m_GPIO_KEY);
+
+    /*
+    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_set_bits(pinModeReg.reg,2,static_cast<uint8_t>(mode),pinModeReg.offset); //Set mode
+
+    return SHAL_Result::OKAY;
 }
 
+/* TODO Fix implementation for STM32F072
 void SHAL_GPIO::useAsExternalInterrupt(TriggerMode mode, EXTICallback callback) {
 
     uint32_t gpioPin = getGPIORegister(m_GPIO_KEY).global_offset; //Use existing structs to get offset
@@ -98,23 +108,25 @@ void SHAL_GPIO::useAsExternalInterrupt(TriggerMode mode, EXTICallback callback)
 
     __enable_irq(); //Enable IRQ just in case
 }
+*/
 
+/* TODO reimplement
 uint16_t SHAL_GPIO::analogRead(SHAL_ADC_SampleTime sampleTime) {
 
     SHAL_ADC_Channel channel = getGPIOPortInfo(m_GPIO_KEY).ADCChannel;
 
     return GPIOManager::getGPIOADC().singleConvertSingle(channel,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);
     }
 
     return m_gpios[gpioPort][gpioPin];
-}
+}

SHAL/Src/STM32F0xx/Peripheral/I2C/SHAL_I2C.cpp

@@ -95,8 +95,6 @@ void SHAL_I2C::masterWriteRead(uint8_t addr,const uint8_t* writeData, size_t wri
     //Read phase
     if (readLen > 0) {
 
-        SHAL_UART2.sendString("Read initiated\r\n");
-
         I2CPeripheral->CR2 &= ~(I2C_CR2_NBYTES | I2C_CR2_SADD | I2C_CR2_RD_WRN);
         I2CPeripheral->CR2 |= (addr << 1) |
                               I2C_CR2_RD_WRN |

SHAL/Src/STM32F0xx/Peripheral/Timer/SHAL_TIM.cpp

@@ -5,45 +5,96 @@
 #include "SHAL_TIM.h"
 #include <cassert>
 
-Timer::Timer(Timer_Key t) : TIMER_KEY(t){
+Timer::Timer(Timer_Key t) : m_key(t){
 
 }
 
-Timer::Timer() : TIMER_KEY(Timer_Key::S_TIM_INVALID){
+Timer::Timer() : m_key(Timer_Key::S_TIM_INVALID){
 
 }
 
 void Timer::start() {
-    getTimerRegister(TIMER_KEY)->CR1 |= TIM_CR1_CEN;
-    getTimerRegister(TIMER_KEY)->EGR |= TIM_EGR_UG; //load prescaler reg and ARR
+
+    auto control_reg = getTimerControlRegister1(m_key);
+    auto event_generation_reg = getTimerEventGenerationRegister(m_key);
+    auto status_reg = getTimerStatusRegister(m_key);
+    auto break_time_dead_reg = getTimerBreakDeadTimeRegister(m_key);
+
+    auto rcc_reg = getTimerRCC(m_key);
+
+    SHAL_apply_bitmask(control_reg.reg, control_reg.counter_enable_mask); //Enable counter
+    SHAL_apply_bitmask(control_reg.reg, control_reg.auto_reload_preload_enable_mask); //Preload enable (buffer)
+    SHAL_apply_bitmask(event_generation_reg.reg, event_generation_reg.update_generation_mask);
+
+    SHAL_clear_bitmask(status_reg.reg,status_reg.update_interrupt_flag_mask);
+
+    SHAL_apply_bitmask(rcc_reg.reg,rcc_reg.enable_mask);
+    SHAL_apply_bitmask(break_time_dead_reg.reg,break_time_dead_reg.main_output_enable_mask);
+
     enableInterrupt();
 }
 
 void Timer::stop() {
-    getTimerRegister(TIMER_KEY)->CR1 &= ~TIM_CR1_CEN;
+    auto rcc_reg = getTimerRCC(m_key);
+
+    SHAL_clear_bitmask(rcc_reg.reg,rcc_reg.enable_mask);
 }
 
 void Timer::setPrescaler(uint16_t presc) {
-    getTimerRegister(TIMER_KEY)->PSC = presc;
+    getTimerRegister(m_key)->PSC = presc;
 }
 
 void Timer::setARR(uint16_t arr) {
-    getTimerRegister(TIMER_KEY)->ARR = arr;
+    getTimerRegister(m_key)->ARR = arr;
 }
 
 void Timer::enableInterrupt() {
-    getTimerRegister(TIMER_KEY)->DIER |= TIM_DIER_UIE;
-    NVIC_EnableIRQ(getIRQn(TIMER_KEY));
+    getTimerRegister(m_key)->DIER |= TIM_DIER_UIE;
+    NVIC_EnableIRQ(getIRQn(m_key));
 }
 
-void Timer::init(uint32_t prescaler, uint32_t autoReload) {
-    TIM_RCC_Enable rcc = getTimerRCC(TIMER_KEY);
-    *rcc.busEnableReg |= (1 << rcc.offset);
+void Timer::init(uint16_t prescaler, uint16_t autoReload) {
+    SHAL_TIM_RCC_Register rcc = getTimerRCC(m_key);
+
+    SHAL_apply_bitmask(rcc.reg,rcc.enable_mask);
 
     setPrescaler(prescaler);
     setARR(autoReload);
 }
 
+void Timer::setOutputCompareMode(SHAL_Timer_Channel channel, SHAL_TIM_Output_Compare_Mode outputCompareMode) {
+
+    auto channelNum = static_cast<uint8_t>(channel);
+
+    auto CCMR = getTimerOutputCaptureCompareModeRegister(m_key, channel);
+
+    uint32_t OCMR_Offset = channelNum % 2 == 1 ? CCMR.output_compare_1_mode_offset : CCMR.output_compare_2_mode_offset;
+
+    SHAL_set_bits(CCMR.reg,3,static_cast<uint8_t>(outputCompareMode),OCMR_Offset);
+}
+
+void Timer::enableChannel(SHAL_Timer_Channel channel, SHAL_Timer_Channel_Main_Output_Mode mainOutputMode,
+                          SHAL_Timer_Channel_Complimentary_Output_Mode complimentaryOutputMode) {
+
+    SHAL_TIM_Capture_Compare_Enable_Register captureCompareEnableReg = getTimerCaptureCompareEnableRegister(m_key, channel);
+
+    uint16_t setValue = 0; //Value to set the register as
+    auto channelNum = static_cast<uint8_t>(channel);
+
+    uint8_t channelStride = 4; //4 bits per field
+
+    setValue |= (static_cast<uint8_t>(mainOutputMode) << ((channelNum - 1) * channelStride)); //xxBB shifted by c - 1
+    setValue |= (static_cast<uint8_t>(complimentaryOutputMode) << (((channelNum - 1) * channelStride) + 2)); //BBxx shifted by c - 1
+
+    SHAL_set_bits(captureCompareEnableReg.reg,16,setValue,0);
+}
+
+void Timer::setCaptureCompareValue(SHAL_Timer_Channel channel, uint16_t value) {
+    auto captureCompareReg = getTimerCaptureCompareRegister(m_key,channel);
+
+    SHAL_set_bits(captureCompareReg.reg,16,value,0);
+}
+
 
 Timer &TimerManager::get(Timer_Key timer_key) {
 
@@ -53,11 +104,9 @@ Timer &TimerManager::get(Timer_Key timer_key) {
     Timer& selected = timers[static_cast<int>(timer_key)];
 
     //Timer queried is not initialized yet (defaults to invalid)
-    if(selected.TIMER_KEY == Timer_Key::S_TIM_INVALID){
+    if(selected.m_key == Timer_Key::S_TIM_INVALID){
         timers[static_cast<int>(timer_key)] = Timer(timer_key); //Initialize TIMER_KEY
     }
 
     return timers[static_cast<int>(timer_key)];
-}
-
-
+}