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ADC/common/adc_value.h
Timur A. Fatkhullin 2412b59b7a ...
2024-05-04 00:40:59 +03:00

571 lines
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#pragma once
/*
ABSTRACT DEVICE COMPONENTS LIBRARY
*/
#include <functional>
#include <system_error>
#include "adc_traits.h"
#include "adc_utils.h"
namespace adc
{
// error codes
enum class AdcValueHolderErrorCode : int {
ERROR_OK,
ERROR_NO_CONV_FUNC,
ERROR_INTERNAL_TYPE_MISMATCH,
ERROR_VALUE_IS_NOT_VALID
};
} // namespace adc
namespace std
{
template <>
class is_error_code_enum<adc::AdcValueHolderErrorCode> : public true_type
{
};
} // namespace std
namespace adc
{
// error category
struct AdcValueHolderErrorCategory : public std::error_category {
AdcValueHolderErrorCategory() : std::error_category() {}
const char* name() const noexcept { return "ADC_VALUEHOLDER_CATEGORY"; }
std::string message(int ec) const
{
AdcValueHolderErrorCode err = static_cast<AdcValueHolderErrorCode>(ec);
switch (err) {
case AdcValueHolderErrorCode::ERROR_OK:
return "OK";
case AdcValueHolderErrorCode::ERROR_NO_CONV_FUNC:
return "conversion function is not defined";
case AdcValueHolderErrorCode::ERROR_INTERNAL_TYPE_MISMATCH:
return "try to setup default conversion function for invalid type (internal type mismatch)";
case AdcValueHolderErrorCode::ERROR_VALUE_IS_NOT_VALID:
return "user value is not valid";
default:
return "UNKNOWN";
}
}
static const AdcValueHolderErrorCategory& get()
{
static const AdcValueHolderErrorCategory constInst;
return constInst;
}
};
inline std::error_code make_error_code(AdcValueHolderErrorCode ec)
{
return std::error_code(static_cast<int>(ec), AdcValueHolderErrorCategory::get());
}
/*
GENERAL-PURPOSE VALUE HOLDER CLASS WITH OPTIONAL VALIDATOR
*/
class AdcValueHolder
{
protected:
template <typename T>
using ret_value_t = std::decay_t<traits::adc_retval_t<T>>;
template <typename VT>
inline static std::unordered_map<const AdcValueHolder*, std::function<VT()>> _getterFunc{};
template <typename VT>
inline static std::unordered_map<const AdcValueHolder*, std::function<void(const VT&)>> _setterFunc{};
std::function<void()> _clearFunc;
void init(std::invocable<> auto&& getter,
std::invocable<const ret_value_t<decltype(getter)>&> auto&& setter,
std::predicate<const ret_value_t<decltype(getter)>&> auto&& validator)
{
using value_t = ret_value_t<decltype(getter)>;
static_assert(!std::is_same_v<value_t, void>, "THE getter MUST NOT RETURN void TYPE!!!");
using g_t = decltype(getter);
using s_t = decltype(setter);
using vld_t = decltype(validator);
_getterFunc<value_t>[this] = [wrapper = traits::adc_pf_wrapper(std::forward<g_t>(getter))]() {
return std::get<0>(wrapper)();
};
_setterFunc<value_t>[this] = [wrapper =
traits::adc_pf_wrapper(std::forward<s_t>(setter),
std::forward<vld_t>(validator))](const value_t& val) {
if (std::get<1>(wrapper)(val)) {
std::get<0>(wrapper)(val);
} else {
throw std::system_error(AdcValueHolderErrorCode::ERROR_VALUE_IS_NOT_VALID);
}
};
_clearFunc = [this]() {
_getterFunc<value_t>.erase(this);
_setterFunc<value_t>.erase(this);
};
}
public:
// default trivial types (just arithmetic ones)
constexpr static std::tuple<bool,
char,
short,
int,
long,
long long,
unsigned char,
unsigned short,
unsigned int,
unsigned long,
unsigned long long,
float,
double,
long double>
_defaultTrivialConvTypes{};
// always-true validator
// constexpr static auto AdcValueHolderDummyValidator = [](const auto&) { return true; };
template <typename VT>
constexpr static bool AdcValueHolderDummyValidator(const VT&)
{
return true;
};
/* CONSTRUCTORS AND DESTRUCTOR */
template <typename GT,
typename VALT = ret_value_t<GT>,
typename VT = decltype(AdcValueHolder::AdcValueHolderDummyValidator<VALT>)>
AdcValueHolder(GT&& getter,
std::invocable<const VALT&> auto&& setter,
VT&& validator = AdcValueHolder::AdcValueHolderDummyValidator<VALT>)
requires std::invocable<GT> && std::predicate<VT, const VALT&>
{
init(std::forward<GT>(getter), std::forward<decltype(setter)>(setter),
std::forward<decltype(validator)>(validator));
}
template <typename... Ts>
AdcValueHolder(std::invocable<> auto&& getter,
std::invocable<const ret_value_t<decltype(getter)>&> auto&& setter,
std::predicate<const ret_value_t<decltype(getter)>&> auto&& validator,
const std::tuple<Ts...>& /* tuple-of-trivially-converting-types */)
: AdcValueHolder(std::forward<decltype(getter)>(getter),
std::forward<decltype(setter)>(setter),
std::forward<decltype(validator)>(validator))
{
// setup trivially-defined conversion function
AdcValueHolder::setupTrivialConvertFunc<ret_value_t<decltype(getter)>, std::tuple<Ts...>>();
}
template <typename... Ts>
AdcValueHolder(std::invocable<> auto&& getter,
std::invocable<const ret_value_t<decltype(getter)>&> auto&& setter,
const std::tuple<Ts...>& t /* tuple-of-trivially-converting-types */)
: AdcValueHolder(std::forward<decltype(getter)>(getter),
std::forward<decltype(setter)>(setter),
AdcValueHolder::AdcValueHolderDummyValidator<traits::adc_retval_t<decltype(getter)>>,
t)
{
}
AdcValueHolder(const AdcValueHolder&) = default;
AdcValueHolder(AdcValueHolder&&) = default;
virtual ~AdcValueHolder() { _clearFunc(); };
/* PUBLIC METHODS */
template <typename GT, typename VT = decltype(AdcValueHolder::AdcValueHolderDummyValidator<ret_value_t<GT>>)>
AdcValueHolder& resetValueHolder(GT&& getter,
std::invocable<const ret_value_t<GT>&> auto&& setter,
VT&& validator = AdcValueHolder::AdcValueHolderDummyValidator<ret_value_t<GT>>)
requires std::invocable<GT> && std::predicate<VT, const ret_value_t<GT>&>
{
_clearFunc();
init(std::forward<decltype(getter)>(getter), std::forward<decltype(setter)>(setter),
std::forward<decltype(validator)>(validator));
return *this;
}
template <typename... Ts>
AdcValueHolder& resetValueHolder(std::invocable<> auto&& getter,
std::invocable<const ret_value_t<decltype(getter)>&> auto&& setter,
std::predicate<const ret_value_t<decltype(getter)>&> auto&& validator,
const std::tuple<Ts...>& /* tuple-of-trivially-converting-types */)
{
resetValueHolder(std::forward<decltype(getter)>(getter), std::forward<decltype(setter)>(setter),
std::forward<decltype(validator)>(validator));
// setup trivially-defined conversion function
setupTrivialConvertFunc<ret_value_t<decltype(getter)>, std::tuple<Ts...>>();
return *this;
}
template <typename... Ts>
AdcValueHolder& resetValueHolder(std::invocable<> auto&& getter,
std::invocable<const ret_value_t<decltype(getter)>&> auto&& setter,
const std::tuple<Ts...>& t /* tuple-of-trivially-converting-types */)
{
return resetValueHolder(std::forward<decltype(getter)>(getter), std::forward<decltype(setter)>(setter),
AdcValueHolder::AdcValueHolderDummyValidator<ret_value_t<decltype(getter)>>, t);
}
template <typename FromFuncT, typename ToFuncT>
AdcValueHolder& addConvertFunc(FromFuncT&& func_from_internal, ToFuncT&& func_to_internal)
requires std::invocable<FromFuncT, const ret_value_t<ToFuncT>&> &&
std::invocable<ToFuncT, const ret_value_t<FromFuncT>&>
{
using value_t = ret_value_t<ToFuncT>; // it must be internal value type
using user_t = ret_value_t<FromFuncT>;
_getterFunc<user_t>[this] = [wrapper = traits::adc_pf_wrapper(std::forward<FromFuncT>(func_from_internal)),
this]() {
auto& getter = _getterFunc<value_t>[this];
if (getter) {
auto val = getter();
return std::get<0>(wrapper)(val); // convert from internal type
}
// invalid conversion function signature
throw std::system_error(AdcValueHolderErrorCode::ERROR_INTERNAL_TYPE_MISMATCH);
};
_setterFunc<user_t>[this] = [wrapper = traits::adc_pf_wrapper(std::forward<ToFuncT>(func_to_internal)),
this](const user_t& val) {
value_t value = std::get<0>(wrapper)(val); // convert to internal type
auto& setter = _setterFunc<value_t>[this];
if (setter) {
setter(value);
} else {
// invalid conversion function signature
throw std::system_error(AdcValueHolderErrorCode::ERROR_INTERNAL_TYPE_MISMATCH);
}
};
_clearFunc = [prev_clear = _clearFunc, this]() {
_getterFunc<user_t>.erase(this);
_setterFunc<user_t>.erase(this);
prev_clear();
};
return *this;
}
template <typename UT>
operator UT()
{
// using v_t = std::remove_reference_t<UT>;
// using val_t = std::conditional_t<std::is_array_v<v_t>, std::add_pointer_t<std::remove_extent_t<v_t>>, v_t>;
using val_t = std::decay_t<UT>;
auto getter = _getterFunc<val_t>[this];
if (getter) {
return getter();
}
throw std::system_error(AdcValueHolderErrorCode::ERROR_NO_CONV_FUNC);
}
template <typename UT>
AdcValueHolder& operator=(UT&& value)
{
using val_t = std::decay_t<UT>;
auto setter = _setterFunc<val_t>[this];
if (setter) {
setter(std::forward<UT>(value));
// setter(value);
} else {
throw std::system_error(AdcValueHolderErrorCode::ERROR_NO_CONV_FUNC);
}
return *this;
}
AdcValueHolder& operator=(AdcValueHolder&& other) = default;
AdcValueHolder& operator=(const AdcValueHolder& other) = default;
protected:
template <typename VT, size_t I, typename TupleT>
void setupTrivialConvertFuncImpl()
{
if constexpr (I < std::tuple_size_v<TupleT>) {
using elem_t = std::tuple_element_t<I, TupleT>;
if constexpr (!std::is_same_v<VT, elem_t>) {
addConvertFunc([](const VT& v) { return static_cast<elem_t>(v); },
[](const elem_t& v) { return static_cast<VT>(v); });
}
setupTrivialConvertFuncImpl<VT, I + 1, TupleT>();
}
}
template <typename VT, typename TupleT>
void setupTrivialConvertFunc()
{
setupTrivialConvertFuncImpl<VT, 0, TupleT>();
}
};
/* */
template <typename SerializedT = std::string>
class AdcSerializingValueHolder : public AdcValueHolder
{
protected:
std::function<SerializedT()> _serializerWrapper;
std::function<void(const SerializedT&)> _deserializerWrapper;
template <typename ValueT, typename SRT, typename DSRT>
void initWrappers(SRT&& serializer, DSRT&& deserializer)
requires std::invocable<SRT, const ValueT&> && std::invocable<DSRT, const SerializedT&>
{
static_assert(std::is_convertible_v<traits::adc_retval_t<SRT>, SerializedT>,
"INVALID RETURNED TYPE OF SERIALIZING CALLABLE!!!");
static_assert(std::is_convertible_v<traits::adc_retval_t<DSRT>, ValueT>,
"INVALID RETURNED TYPE OF DESERIALIZING CALLABLE!!!");
_serializerWrapper = [wrapper = traits::adc_pf_wrapper(std::forward<SRT>(serializer)), this]() {
auto& serializer = std::get<0>(wrapper);
auto val = _getterFunc<ValueT>[this]();
return serializer(val);
};
_deserializerWrapper = [wrapper = traits::adc_pf_wrapper(std::forward<DSRT>(deserializer)),
this](const SerializedT& sval) {
auto& deserializer = std::get<0>(wrapper);
ValueT val = deserializer(sval);
_setterFunc<ValueT>[this](val);
};
}
public:
typedef SerializedT serialized_t;
/* CONSTRUCTORS AND DESTRUCTOR */
template <typename GT,
typename ST,
typename VALT = ret_value_t<GT>,
typename VT = decltype(AdcValueHolder::AdcValueHolderDummyValidator<VALT>),
typename SRT = decltype(utils::AdcDefaultValueConverter<>::serialize<SerializedT, VALT>),
typename DSRT = decltype(utils::AdcDefaultValueConverter<>::deserialize<VALT, SerializedT>)>
AdcSerializingValueHolder(GT&& getter,
ST&& setter,
VT&& validator = AdcValueHolder::AdcValueHolderDummyValidator<VALT>,
SRT&& serializer = utils::AdcDefaultValueConverter<>::serialize<SerializedT, VALT>,
DSRT&& deserializer = utils::AdcDefaultValueConverter<>::deserialize<VALT, SerializedT>)
requires std::invocable<GT> && std::invocable<ST, const VALT&> && std::predicate<VT, const VALT&> &&
std::invocable<SRT, const VALT&> && std::invocable<DSRT, const SerializedT&>
: AdcValueHolder(std::forward<GT>(getter), std::forward<ST>(setter), std::forward<VT>(validator))
{
initWrappers<VALT>(std::forward<SRT>(serializer), std::forward<DSRT>(deserializer));
}
template <typename GT,
typename ST,
typename VALT = ret_value_t<GT>,
typename VT,
typename SRT = decltype(utils::AdcDefaultValueConverter<>::serialize<SerializedT, VALT>),
typename DSRT = decltype(utils::AdcDefaultValueConverter<>::deserialize<VALT, SerializedT>),
typename... Ts>
AdcSerializingValueHolder(GT&& getter,
ST&& setter,
VT&& validator,
const std::tuple<Ts...>&,
SRT&& serializer = utils::AdcDefaultValueConverter<>::serialize<SerializedT, VALT>,
DSRT&& deserializer = utils::AdcDefaultValueConverter<>::deserialize<VALT, SerializedT>)
: AdcValueHolder(std::forward<GT>(getter),
std::forward<ST>(setter),
std::forward<VT>(validator),
std::tuple<Ts...>{})
{
initWrappers<VALT>(std::forward<SRT>(serializer), std::forward<DSRT>(deserializer));
}
template <typename GT,
typename ST,
typename VALT = ret_value_t<GT>,
typename SRT = decltype(utils::AdcDefaultValueConverter<>::serialize<SerializedT, VALT>),
typename DSRT = decltype(utils::AdcDefaultValueConverter<>::deserialize<VALT, SerializedT>),
typename... Ts>
AdcSerializingValueHolder(GT&& getter,
ST&& setter,
const std::tuple<Ts...>&,
SRT&& serializer = utils::AdcDefaultValueConverter<>::serialize<SerializedT, VALT>,
DSRT&& deserializer = utils::AdcDefaultValueConverter<>::deserialize<VALT, SerializedT>)
: AdcValueHolder(std::forward<GT>(getter),
std::forward<ST>(setter),
AdcValueHolder::AdcValueHolderDummyValidator<VALT>,
std::tuple<Ts...>{})
{
initWrappers<VALT>(std::forward<SRT>(serializer), std::forward<DSRT>(deserializer));
}
virtual ~AdcSerializingValueHolder() = default;
/* PUBLIC METHODS */
template <typename GT,
typename ST,
typename VT = decltype(AdcValueHolder::AdcValueHolderDummyValidator<ret_value_t<GT>>),
typename SRT = decltype(utils::AdcDefaultValueConverter<>::serialize<SerializedT, ret_value_t<GT>>),
typename DSRT = decltype(utils::AdcDefaultValueConverter<>::deserialize<ret_value_t<GT>, SerializedT>)>
AdcSerializingValueHolder& resetValueHolder(
GT&& getter,
ST&& setter,
VT&& validator = AdcValueHolder::AdcValueHolderDummyValidator<ret_value_t<GT>>,
SRT&& serializer = utils::AdcDefaultValueConverter<>::serialize<SerializedT, ret_value_t<GT>>,
DSRT&& deserializer = utils::AdcDefaultValueConverter<>::deserialize<ret_value_t<GT>, SerializedT>)
{
AdcValueHolder::resetValueHolder(std::forward<GT>(getter), std::forward<ST>(setter),
std::forward<VT>(validator));
initWrappers<ret_value_t<GT>>(std::forward<SRT>(serializer), std::forward<DSRT>(deserializer));
return *this;
}
template <typename GT,
typename ST,
typename VT,
typename SRT = decltype(utils::AdcDefaultValueConverter<>::serialize<SerializedT, ret_value_t<GT>>),
typename DSRT = decltype(utils::AdcDefaultValueConverter<>::deserialize<ret_value_t<GT>, SerializedT>),
typename... Ts>
AdcSerializingValueHolder& resetValueHolder(
GT&& getter,
ST&& setter,
VT&& validator,
const std::tuple<Ts...>&,
SRT&& serializer = utils::AdcDefaultValueConverter<>::serialize<SerializedT, ret_value_t<GT>>,
DSRT&& deserializer = utils::AdcDefaultValueConverter<>::deserialize<ret_value_t<GT>, SerializedT>)
{
AdcValueHolder::resetValueHolder(std::forward<GT>(getter), std::forward<ST>(setter),
std::forward<VT>(validator), std::tuple<Ts...>{});
initWrappers<ret_value_t<GT>>(std::forward<SRT>(serializer), std::forward<DSRT>(deserializer));
return *this;
}
template <typename GT,
typename ST,
typename SRT = decltype(utils::AdcDefaultValueConverter<>::serialize<SerializedT, ret_value_t<GT>>),
typename DSRT = decltype(utils::AdcDefaultValueConverter<>::deserialize<ret_value_t<GT>, SerializedT>),
typename... Ts>
AdcSerializingValueHolder& resetValueHolder(
GT&& getter,
ST&& setter,
const std::tuple<Ts...>&,
SRT&& serializer = utils::AdcDefaultValueConverter<>::serialize<SerializedT, ret_value_t<GT>>,
DSRT&& deserializer = utils::AdcDefaultValueConverter<>::deserialize<ret_value_t<GT>, SerializedT>)
{
AdcValueHolder::resetValueHolder(std::forward<GT>(getter), std::forward<ST>(setter), std::tuple<Ts...>{});
initWrappers<ret_value_t<GT>>(std::forward<SRT>(serializer), std::forward<DSRT>(deserializer));
return *this;
}
SerializedT serialize() { return _serializerWrapper(); }
void deserialize(const SerializedT& sval) { _deserializerWrapper(sval); }
using AdcValueHolder::operator=;
};
/*
factory functions
*/
template <typename HolderT,
typename GT,
typename VALT = traits::adc_retval_t<GT>,
typename VT = decltype(AdcValueHolder::AdcValueHolderDummyValidator<VALT>),
typename... Ts>
HolderT makeArithmValue(GT&& getter,
std::invocable<const VALT&> auto&& setter,
VT&& validator = AdcValueHolder::AdcValueHolderDummyValidator<VALT>,
Ts&&... other_ctor_args)
requires std::invocable<GT> && std::predicate<VT, const VALT&>
{
using val_t = traits::adc_retval_t<GT>;
static_assert(std::is_arithmetic_v<val_t>, "GETTER MUST RETURN AN ARITHMETIC TYPE VALUE!!!");
return HolderT(std::forward<GT>(getter), std::forward<decltype(setter)>(setter),
std::forward<decltype(validator)>(validator), AdcValueHolder::_defaultTrivialConvTypes,
std::forward<Ts>(other_ctor_args)...);
}
} // namespace adc
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