adc/adc.hpp

#ifndef ADC_HPP
#define ADC_HPP

#include "config.hpp"
#include "hardware.hpp"

#include <stdint.h>

#include "../io/io.hpp"

namespace adc {

namespace detail {

extern void (*fnAdcIntHandler)(const uint16_t &);

using reg_ptr_t = volatile uint8_t *;

template <uintptr_t Address>
static inline reg_ptr_t getRegPtr()
{
	return reinterpret_cast<reg_ptr_t>(Address);
}

template <typename Cfg>
class AdcImpl {
  public:
	static uint16_t read()
	{
		*getRegPtr<Registers::CTRL_STAT_A_ADDR>() |= 1 << ControlFlagsA::START_CONV;
		while (*getRegPtr<Registers::CTRL_STAT_A_ADDR>() & (1 << ControlFlagsA::START_CONV))
			;

		uint16_t adcSample = *getRegPtr<Registers::DATA_L_ADDR>();
		adcSample |= *getRegPtr<Registers::DATA_H_ADDR>() << 8;
		return adcSample;
	}

  protected:
	static void init(uint8_t muxVal)
	{
		*getRegPtr<Registers::MUX_SEL_ADDR>() = muxVal | calcRef();

		auto ctrlStatA = calcCtrlStatA(detail::fnAdcIntHandler != nullptr);
		*getRegPtr<Registers::CTRL_STAT_A_ADDR>() = ctrlStatA;

		constexpr auto ctrlStatB = calcCtrlStatB();
		*getRegPtr<Registers::CTRL_STAT_B_ADDR>() = ctrlStatB;

		if constexpr (Cfg::MODE == Mode::FREE_RUNNING) {
			*getRegPtr<Registers::CTRL_STAT_A_ADDR>() |= 1 << ControlFlagsA::START_CONV;
		}
	}

	static constexpr auto calcRef()
	{
		uint8_t muxVal = 0;

		if constexpr (Cfg::VREF == VoltageRef::AVCC) {
			muxVal |= 1 << ControlFlagsMUX::REF_SEL_0;
		} else if constexpr (Cfg::VREF == VoltageRef::INTERNAL) {
			muxVal |= (1 << ControlFlagsMUX::REF_SEL_0) | (1 << ControlFlagsMUX::REF_SEL_1);
		}

		return muxVal;
	}

	static constexpr uint8_t calcPrescaler()
	{
		constexpr auto validPrescaler = Cfg::PRESCALER == 2 || Cfg::PRESCALER == 4 || Cfg::PRESCALER == 8 ||
		                                Cfg::PRESCALER == 16 || Cfg::PRESCALER == 32 || Cfg::PRESCALER == 64 ||
		                                Cfg::PRESCALER == 128;
		static_assert(validPrescaler, "Invalid prescaler");

		// clang-format off
		switch (Cfg::PRESCALER) {
			case   2: return 1;
			case   4: return 2;
			case   8: return 3;
			case  16: return 4;
			case  32: return 5;
			case  64: return 6;
			case 128: return 7;
		}
		// clang-format on
	}

	static auto calcCtrlStatA(bool interruptEnable)
	{
		uint8_t ctrlStatA = 1 << ControlFlagsA::ENABLE;

		if constexpr (Cfg::MODE == Mode::AUTO || Cfg::MODE == Mode::FREE_RUNNING) {
			ctrlStatA |= 1 << ControlFlagsA::AUTO_TRIGGER;
		}
		if (interruptEnable) {
			ctrlStatA |= 1 << ControlFlagsA::CONV_COMPLETE_INT_ENABLE;
		}

		return ctrlStatA | calcPrescaler();
	}

	static constexpr uint8_t calcCtrlStatB()
	{
		if constexpr (Cfg::MODE == Mode::AUTO) {
			// clang-format off
			switch (Cfg::TRIGGER_SRC) {
			case TriggerSource::FREE_RUNNING: return 0;
			case TriggerSource::ANALOG_COMP: return 1;
			case TriggerSource::EXTERNAL_INT_0: return 2;
			case TriggerSource::TIMER0_COMP_A: return 3;
			case TriggerSource::TIMER0_OVERFLOW: return 4;
			case TriggerSource::TIMER1_COMP_B: return 5;
			case TriggerSource::TIMER1_OVERFLOW: return 6;
			case TriggerSource::TIMER1_CAPTURE: return 7;
			}
			// clang-format on
		}

		return 0;
	}
};

} // namespace detail

template <typename Cfg, typename Input, Input src>
class Adc {
  public:
	static_assert(sizeof(Input) == -1, "Invalid input source selected");
};

template <typename Cfg, io::P pin>
class Adc<Cfg, io::P, pin> : public detail::AdcImpl<Cfg> {
	using callback_t = void (*)(const uint16_t &);

  public:
	static_assert(detail::supports_adc_v<pin>, "Pin does not support ADC");

	static void init(callback_t callback)
	{
		detail::fnAdcIntHandler = callback;
		init();
	}

	static void init()
	{
		constexpr auto muxVal = calcChannel();
		detail::AdcImpl<Cfg>::init(muxVal);
	}

  private:
	static constexpr auto calcChannel()
	{
		return static_cast<uint8_t>(pin) - static_cast<uint8_t>(io::P::C0);
	}
};

template <typename Cfg, InputSource src>
class Adc<Cfg, InputSource, src> : public detail::AdcImpl<Cfg> {
	using callback_t = void (*)(const uint16_t &);

  public:
	static void init(callback_t callback)
	{
		detail::fnAdcIntHandler = callback;
		init();
	}

	static void init()
	{
		constexpr auto muxVal = calcChannel();
		detail::AdcImpl<Cfg>::init(muxVal);
	}

  private:
	static constexpr auto calcChannel()
	{
		using mx = detail::ControlFlagsMUX;
		// clang-format off
		switch (src) {
		case InputSource::TEMP: return 1 << mx::CHANNEL_SEL_3;
		case InputSource::VBG: return (1 << mx::CHANNEL_SEL_3) | (1 << mx::CHANNEL_SEL_2) | (1 << mx::CHANNEL_SEL_1);
		case InputSource::GND: return (1 << mx::CHANNEL_SEL_3) | (1 << mx::CHANNEL_SEL_2) | (1 << mx::CHANNEL_SEL_1) | (1 << mx::CHANNEL_SEL_0);
		}
		// clang-format on
	}
};

} // namespace adc

#endif

//////////////////////////////////////////////////////////////////////////

#ifdef ADC_INT_VECTOR

#include <stdint.h>

#include <avr/interrupt.h>

namespace adc {
namespace detail {

#if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega328P__)

void (*fnAdcIntHandler)(const uint16_t &) = nullptr;

ISR(ADC_vect)
{
	if (fnAdcIntHandler) {
		const auto adcSample = *getRegPtr<Registers::DATA_L_ADDR>() | (*getRegPtr<Registers::DATA_H_ADDR>() << 8);
		fnAdcIntHandler(adcSample);
	}
}

#else
#error "This chip is not supported"
#endif

} // namespace detail
} // namespace adc

#undef ADC_INT_VECTORS

#endif
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`#ifndef ADC_HPP`
			`#define ADC_HPP`
Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00
Added config and basic interface 2020-02-21 19:08:47 +01:00			`#include "config.hpp"`
Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00			`#include "hardware.hpp"`

Added config and basic interface 2020-02-21 19:08:47 +01:00			`#include <stdint.h>`

Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00			`#include "../io/io.hpp"`

			`namespace adc {`

Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`namespace detail {`
Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00
Fixed free running mode 2020-04-06 19:42:17 +02:00			`extern void (*fnAdcIntHandler)(const uint16_t &);`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`using reg_ptr_t = volatile uint8_t *;`
Added config and basic interface 2020-02-21 19:08:47 +01:00
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`template <uintptr_t Address>`
			`static inline reg_ptr_t getRegPtr()`
			`{`
			`return reinterpret_cast<reg_ptr_t>(Address);`
			`}`

			`template <typename Cfg>`
			`class AdcImpl {`
Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00			`public:`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`static uint16_t read()`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`{`
Implemented all modes 2020-02-21 21:53:48 +01:00			`*getRegPtr<Registers::CTRL_STAT_A_ADDR>() \|= 1 << ControlFlagsA::START_CONV;`
			`while (*getRegPtr<Registers::CTRL_STAT_A_ADDR>() & (1 << ControlFlagsA::START_CONV))`
			`;`

			`uint16_t adcSample = *getRegPtr<Registers::DATA_L_ADDR>();`
			`adcSample \|= *getRegPtr<Registers::DATA_H_ADDR>() << 8;`
			`return adcSample;`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`}`
Added config and basic interface 2020-02-21 19:08:47 +01:00
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`protected:`
			`static void init(uint8_t muxVal)`
			`{`
			`*getRegPtr<Registers::MUX_SEL_ADDR>() = muxVal \| calcRef();`
Implemented all modes 2020-02-21 21:53:48 +01:00
			`auto ctrlStatA = calcCtrlStatA(detail::fnAdcIntHandler != nullptr);`
			`*getRegPtr<Registers::CTRL_STAT_A_ADDR>() = ctrlStatA;`

			`constexpr auto ctrlStatB = calcCtrlStatB();`
			`*getRegPtr<Registers::CTRL_STAT_B_ADDR>() = ctrlStatB;`
Fixed free running mode 2020-04-06 19:42:17 +02:00
			`if constexpr (Cfg::MODE == Mode::FREE_RUNNING) {`
			`*getRegPtr<Registers::CTRL_STAT_A_ADDR>() \|= 1 << ControlFlagsA::START_CONV;`
			`}`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`}`
Added config and basic interface 2020-02-21 19:08:47 +01:00
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`static constexpr auto calcRef()`
Added config and basic interface 2020-02-21 19:08:47 +01:00			`{`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`uint8_t muxVal = 0;`

			`if constexpr (Cfg::VREF == VoltageRef::AVCC) {`
			`muxVal \|= 1 << ControlFlagsMUX::REF_SEL_0;`
			`} else if constexpr (Cfg::VREF == VoltageRef::INTERNAL) {`
			`muxVal \|= (1 << ControlFlagsMUX::REF_SEL_0) \| (1 << ControlFlagsMUX::REF_SEL_1);`
			`}`

			`return muxVal;`
Added config and basic interface 2020-02-21 19:08:47 +01:00			`}`
Implemented all modes 2020-02-21 21:53:48 +01:00
			`static constexpr uint8_t calcPrescaler()`
			`{`
			`constexpr auto validPrescaler = Cfg::PRESCALER == 2 \|\| Cfg::PRESCALER == 4 \|\| Cfg::PRESCALER == 8 \|\|`
			`Cfg::PRESCALER == 16 \|\| Cfg::PRESCALER == 32 \|\| Cfg::PRESCALER == 64 \|\|`
			`Cfg::PRESCALER == 128;`
			`static_assert(validPrescaler, "Invalid prescaler");`

			`// clang-format off`
Fixed indentation 2020-03-29 04:17:47 +02:00			`switch (Cfg::PRESCALER) {`
			`case 2: return 1;`
			`case 4: return 2;`
			`case 8: return 3;`
			`case 16: return 4;`
			`case 32: return 5;`
			`case 64: return 6;`
			`case 128: return 7;`
			`}`
Implemented all modes 2020-02-21 21:53:48 +01:00			`// clang-format on`
			`}`

			`static auto calcCtrlStatA(bool interruptEnable)`
			`{`
			`uint8_t ctrlStatA = 1 << ControlFlagsA::ENABLE;`

Fixed free running mode 2020-04-06 19:42:17 +02:00			`if constexpr (Cfg::MODE == Mode::AUTO \|\| Cfg::MODE == Mode::FREE_RUNNING) {`
Implemented all modes 2020-02-21 21:53:48 +01:00			`ctrlStatA \|= 1 << ControlFlagsA::AUTO_TRIGGER;`
Fixed free running mode 2020-04-06 19:42:17 +02:00			`}`
			`if (interruptEnable) {`
Implemented all modes 2020-02-21 21:53:48 +01:00			`ctrlStatA \|= 1 << ControlFlagsA::CONV_COMPLETE_INT_ENABLE;`
			`}`

			`return ctrlStatA \| calcPrescaler();`
			`}`

			`static constexpr uint8_t calcCtrlStatB()`
			`{`
			`if constexpr (Cfg::MODE == Mode::AUTO) {`
			`// clang-format off`
			`switch (Cfg::TRIGGER_SRC) {`
			`case TriggerSource::FREE_RUNNING: return 0;`
			`case TriggerSource::ANALOG_COMP: return 1;`
			`case TriggerSource::EXTERNAL_INT_0: return 2;`
			`case TriggerSource::TIMER0_COMP_A: return 3;`
			`case TriggerSource::TIMER0_OVERFLOW: return 4;`
			`case TriggerSource::TIMER1_COMP_B: return 5;`
			`case TriggerSource::TIMER1_OVERFLOW: return 6;`
			`case TriggerSource::TIMER1_CAPTURE: return 7;`
			`}`
			`// clang-format on`
			`}`

			`return 0;`
			`}`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`};`
Added config and basic interface 2020-02-21 19:08:47 +01:00
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`} // namespace detail`

			`template <typename Cfg, typename Input, Input src>`
			`class Adc {`
			`public:`
			`static_assert(sizeof(Input) == -1, "Invalid input source selected");`
			`};`

			`template <typename Cfg, io::P pin>`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`class Adc<Cfg, io::P, pin> : public detail::AdcImpl<Cfg> {`
Fixed free running mode 2020-04-06 19:42:17 +02:00			`using callback_t = void (*)(const uint16_t &);`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`public:`
			`static_assert(detail::supports_adc_v<pin>, "Pin does not support ADC");`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00
			`static void init(callback_t callback)`
			`{`
			`detail::fnAdcIntHandler = callback;`
			`init();`
			`}`

			`static void init()`
			`{`
			`constexpr auto muxVal = calcChannel();`
			`detail::AdcImpl<Cfg>::init(muxVal);`
			`}`

			`private:`
			`static constexpr auto calcChannel()`
			`{`
			`return static_cast<uint8_t>(pin) - static_cast<uint8_t>(io::P::C0);`
			`}`
Added config and basic interface 2020-02-21 19:08:47 +01:00			`};`

			`template <typename Cfg, InputSource src>`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00			`class Adc<Cfg, InputSource, src> : public detail::AdcImpl<Cfg> {`
Fix wrong callback signature 2020-04-13 00:03:02 +02:00			`using callback_t = void (*)(const uint16_t &);`
Implemented mux register initialization 2020-02-21 21:24:10 +01:00
			`public:`
			`static void init(callback_t callback)`
			`{`
			`detail::fnAdcIntHandler = callback;`
			`init();`
			`}`

			`static void init()`
			`{`
			`constexpr auto muxVal = calcChannel();`
			`detail::AdcImpl<Cfg>::init(muxVal);`
			`}`

			`private:`
			`static constexpr auto calcChannel()`
			`{`
			`using mx = detail::ControlFlagsMUX;`
			`// clang-format off`
			`switch (src) {`
			`case InputSource::TEMP: return 1 << mx::CHANNEL_SEL_3;`
			`case InputSource::VBG: return (1 << mx::CHANNEL_SEL_3) \| (1 << mx::CHANNEL_SEL_2) \| (1 << mx::CHANNEL_SEL_1);`
			`case InputSource::GND: return (1 << mx::CHANNEL_SEL_3) \| (1 << mx::CHANNEL_SEL_2) \| (1 << mx::CHANNEL_SEL_1) \| (1 << mx::CHANNEL_SEL_0);`
			`}`
			`// clang-format on`
			`}`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`};`
Added config and basic interface 2020-02-21 19:08:47 +01:00
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`} // namespace adc`
Added config and basic interface 2020-02-21 19:08:47 +01:00
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`#endif`
Added config and basic interface 2020-02-21 19:08:47 +01:00
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`//////////////////////////////////////////////////////////////////////////`

			`#ifdef ADC_INT_VECTOR`

			`#include <stdint.h>`

			`#include <avr/interrupt.h>`

			`namespace adc {`
			`namespace detail {`

			`#if defined(__AVR_ATmega1284P__) \|\| defined(__AVR_ATmega328P__)`

Fixed free running mode 2020-04-06 19:42:17 +02:00			`void (*fnAdcIntHandler)(const uint16_t &) = nullptr;`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00
			`ISR(ADC_vect)`
			`{`
			`if (fnAdcIntHandler) {`
			`const auto adcSample = getRegPtr<Registers::DATA_L_ADDR>() \| (getRegPtr<Registers::DATA_H_ADDR>() << 8);`
			`fnAdcIntHandler(adcSample);`
Added config and basic interface 2020-02-21 19:08:47 +01:00			`}`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`}`
Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`#else`
			`#error "This chip is not supported"`
			`#endif`
Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00			`} // namespace detail`
Added hardware description and basic interface design 2020-02-01 23:41:18 +01:00			`} // namespace adc`
Implemented different configs and refactored implementation into Impl class 2020-02-21 20:38:32 +01:00
			`#undef ADC_INT_VECTORS`

			`#endif`