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@ -14,17 +14,29 @@
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*/
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#define FUNREG_ENABLE_EXTERNAL_IO
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/**
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* Comment to disable compile-time error checks, which are mostly concepts
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* to verify proper library usage.
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*/
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#define FUNREG_ENABLE_ERROR_CHECKS
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#include <stdint.h>
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#ifdef FUNREG_ENABLE_EXTERNAL_IO
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#include <type_traits>
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#endif
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#ifdef FUNREG_ENABLE_ERROR_CHECKS
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#include <concepts>
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#endif
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namespace fr {
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// A utility to measure a bit-mask's offset from bit zero.
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template<auto Mask, unsigned int N = 0>
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constexpr auto BitOffset = []() constexpr {
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requires(std::unsigned_integral<decltype(Mask)> &&
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(N < 8 * sizeof(Mask)))
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constexpr auto BitOffset = []() constexpr -> unsigned int {
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if constexpr (Mask & 1)
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return N;
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else
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@ -41,6 +53,7 @@ constexpr auto BitOffset = []() constexpr {
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* structure as a template.
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*/
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template<typename T, uintptr_t Addr>
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requires(std::unsigned_integral<T>)
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struct MemoryIO {
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using type = T;
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constexpr static auto addr = Addr;
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@ -60,6 +73,54 @@ struct MemoryIO {
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}
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};
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template<typename T>
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concept IsAccess = requires(typename T::type x) {
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requires std::same_as<decltype(T::addr), const uintptr_t>;
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{T::read()} -> std::same_as<typename T::type>;
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{T::write(x)} -> std::same_as<void>;
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};
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#ifdef FUNREG_ENABLE_EXTERNAL_IO
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template<typename Access>
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requires IsAccess<Access>
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struct Register;
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template<typename T>
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concept IsRegister =
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IsAccess<typename T::access> &&
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std::same_as<T, Register<typename T::access>>;
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#else
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template<typename T, uintptr_t Addr>
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requires(std::unsigned_integral<T>)
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class Register;
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template<typename T>
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concept IsRegister =
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std::unsigned_integral<typename T::type> &&
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IsAccess<typename T::Access>;
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#endif
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template<typename Reg, typename Reg::type Mask>
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requires IsRegister<Reg>
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struct RegisterMask;
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template<typename T>
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concept IsRegisterMask =
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IsRegister<typename T::reg> &&
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std::same_as<T, RegisterMask<typename T::reg, T::mask>>;
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template<typename M, typename R>
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concept UsesRegister =
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IsRegisterMask<M> &&
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IsRegister<R> &&
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std::same_as<typename M::reg, R>;
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template<typename M, typename... Rs>
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concept UsesSomeRegister =
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IsRegisterMask<M> &&
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(IsRegister<Rs>, ...) &&
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(std::same_as<typename M::reg, Rs> || ...);
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/**
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* @struct Register
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* @brief Defines a register, given how to access it.
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@ -70,16 +131,22 @@ struct MemoryIO {
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*/
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#ifdef FUNREG_ENABLE_EXTERNAL_IO
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template<typename Access>
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struct Register {
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requires IsAccess<Access>
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class Register {
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public:
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using access = Access;
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using T = typename Access::type;
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constexpr static auto Addr = Access::addr;
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#else
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template<typename T, uintptr_t Addr>
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struct Register {
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using RegAccess = MemoryIO<T, Addr>;
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requires(std::unsigned_integral<T>)
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class Register {
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public:
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using Access = MemoryIO<T, Addr>;
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#endif // FUNREG_ENABLE_EXTERNAL_IO
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using type = T;
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/**
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* Gets a pointer to the register.
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*/
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@ -98,6 +165,8 @@ struct Register {
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* Sets register bits to '1' according to the given RegisterMasks.
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesRegister<Masks, Register<Access>>, ...))
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static void set() {
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apply<Masks...>([](auto r, auto m) { return r | m; });
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}
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@ -113,6 +182,8 @@ struct Register {
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* Clears register bits to '0' according to the given RegisterMasks.
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesRegister<Masks, Register<Access>>, ...))
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static void clear() {
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apply<Masks...>([](auto r, auto m) { return r & ~m; });
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}
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@ -128,6 +199,8 @@ struct Register {
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* Toggles bits in the register according to the given RegisterMasks.
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesRegister<Masks, Register<Access>>, ...))
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static void toggle() {
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apply<Masks...>([](auto r, auto m) { return r ^m; });
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}
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@ -145,6 +218,8 @@ struct Register {
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* If no masks are given, all register bits are returned.
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesRegister<Masks, Register<Access>>, ...))
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static auto read() {
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if constexpr (sizeof...(Masks) > 0)
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return read() & mergeMasks<Masks...>();
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@ -157,6 +232,8 @@ struct Register {
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* If no masks are given, tests if the register has a non-zero value.
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesRegister<Masks, Register<Access>>, ...))
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static bool test() {
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if constexpr (sizeof...(Masks) > 0) {
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auto mask = mergeMasks<Masks...>();
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@ -185,16 +262,16 @@ struct Register {
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}
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}
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// Below is meant for internal use only.
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// Internal use only.
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// Applies bit-masks to the register through the provided function.
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// The provided function receives a pointer to the register's data and a
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// bit-mask created by merging all provided bit-masks.
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// All masks meant for this register are merged together; then, `fn`
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// will receive the register's current value and the mask to carry out
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// the operation. The result is written back to the register.
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// If no masks are given, a mask selecting all bits is used.
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template<typename... Masks>
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static void apply(auto fn) {
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constexpr static void apply(auto fn) {
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if constexpr (sizeof...(Masks) > 0) {
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auto mask = mergeMasks<Masks...>();
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constexpr auto mask = mergeMasks<Masks...>();
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if constexpr (mask)
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write(fn(read(), mask));
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} else {
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@ -202,10 +279,11 @@ struct Register {
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}
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}
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private:
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// Takes a list of bit-masks, and returns a merged mask of those which are
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// meant for this register.
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template<typename... Masks>
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static auto mergeMasks() {
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constexpr static auto mergeMasks() {
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if constexpr (sizeof...(Masks) > 0) {
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if constexpr ((isThis<typename Masks::reg> | ...)) {
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auto mask =
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@ -224,20 +302,20 @@ struct Register {
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#ifdef FUNREG_ENABLE_EXTERNAL_IO
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// Determines if the given register matches this one.
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template<typename Reg>
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requires(IsRegister<Reg>)
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constexpr static bool isThis = [] {
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return std::is_same_v<typename Reg::access, access> && Addr == Reg::Addr;
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}();
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#else
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// Determines if the given register matches this one.
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template<typename Reg>
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requires(IsRegister<Reg>)
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constexpr static bool isThis = [] {
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return Addr == Reg::Addr;
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}();
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#endif // FUNREG_ENABLE_EXTERNAL_IO
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Register() = delete;
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using type = T;
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};
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/**
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@ -251,6 +329,7 @@ struct Register {
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* using LED_RED = RegisterMask<GPIO_OUT, (1 << 2)>;
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*/
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template<typename Reg, typename Reg::type Mask>
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requires IsRegister<Reg>
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struct RegisterMask
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{
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using T = typename Reg::type;
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@ -373,6 +452,7 @@ struct RegisterMask
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* @tparam value The value to be used for the given Mask.
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*/
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template<typename Mask, Mask::T value>
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requires(IsRegisterMask<Mask>)
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struct RegisterMaskValue
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{
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/**
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@ -406,6 +486,7 @@ struct RegisterMaskValue
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* each register.
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*/
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template<typename... Registers>
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requires(IsRegister<Registers>, ...)
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class RegisterGroup
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{
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public:
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@ -415,6 +496,8 @@ public:
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* only written once.
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesSomeRegister<Masks, Registers...>, ...))
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static void set() {
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apply<Masks...>([](auto r, auto m) { return r | m; });
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}
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@ -425,6 +508,8 @@ public:
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* Only reads and writes each register once; see set().
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesSomeRegister<Masks, Registers...>, ...))
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static void clear() {
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apply<Masks...>([](auto r, auto m) { return r & ~m; });
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}
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@ -435,6 +520,8 @@ public:
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* Only reads and writes each register once; see set().
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*/
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesSomeRegister<Masks, Registers...>, ...))
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static void toggle() {
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apply<Masks...>([](auto r, auto m) { return r ^ m; });
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}
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@ -453,6 +540,8 @@ public:
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private:
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template<typename... Masks>
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requires((IsRegisterMask<Masks>, ...) &&
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(UsesSomeRegister<Masks, Registers...>, ...))
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static void apply(auto fn) {
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(Registers::template apply<Masks...>(fn), ...);
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}
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@ -465,6 +554,7 @@ private:
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* register.
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*/
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template<typename... RegMasks>
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requires(IsRegisterMask<RegMasks>, ...)
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constexpr auto Masks = (RegMasks::mask | ...);
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#ifdef FUNREG_ENABLE_EXTERNAL_IO
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@ -501,4 +591,3 @@ using MemRegister = Register<T, Addr>;
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} // namespace fr
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#endif // FUNCTIONAL_REGISTER_IO_H
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Clyne