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cppreg/register/Register.h
Nicolas Clauvelin c1081a114e Code maintenance 
* Revise and simplify most enable_if statements in the project.
* Update code style in all files.
* Update copyright year.
* Add a dedicated Memory.h header with the memory device implementation.
* Update documentation.
* CMake cleanup.
2019-04-24 17:00:57 -04:00

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//! Register type implementation.
/**
* @file Register.h
* @author Nicolas Clauvelin (nclauvelin@sendyne.com)
* @copyright Copyright 2010-2019 Sendyne Corp. All rights reserved.
*
* This header provides the definitions related to register implementation.
*/
#ifndef CPPREG_REGISTER_H
#define CPPREG_REGISTER_H
#include "Memory.h"
#include "MergeWrite.h"
#include "ShadowValue.h"
namespace cppreg {
//! Register data structure.
/**
* @tparam reg_address Register address.
* @tparam reg_size Register size enum value.
* @tparam reset_value Register reset value (0x0 if unknown).
* @tparam use_shadow shadow Boolean flag to enable shadow value.
*
* This data structure will act as a container for fields and is
* therefore limited to a strict minimum. It only carries information
* about the register base address, size, and reset value.
* In practice, register are implemented by deriving from this class to
* create custom types.
*/
template <Address reg_address,
RegBitSize reg_size,
typename TypeTraits<reg_size>::type reset_value = 0x0,
bool use_shadow = false>
struct Register {
//! Register base type.
using type = typename TypeTraits<reg_size>::type;
//! MMIO pointer type.
using MMIO = volatile type;
//! Boolean flag for shadow value management.
using shadow = Shadow<Register, use_shadow>;
//! Register base address.
constexpr static auto base_address = reg_address;
//! Register size in bits.
constexpr static auto size = TypeTraits<reg_size>::bit_size;
//! Register reset value.
constexpr static auto reset = reset_value;
//! Register pack for memory device.
using pack = RegisterPack<base_address, size / 8u>;
//! Memory modifier.
/**
* @return A reference to the writable register memory.
*/
static MMIO& rw_mem_device() {
using mem_device = typename RegisterMemoryDevice<pack>::mem_device;
return mem_device::template rw_memory<reg_size, 0>();
}
//! Memory accessor.
/**
* @return A reference to the read-only register memory.
*/
static const MMIO& ro_mem_device() {
using mem_device = typename RegisterMemoryDevice<pack>::mem_device;
return mem_device::template ro_memory<reg_size, 0>();
}
//! Merge write start function.
/**
* @tparam F Field on which to perform the first write operation.
* @param value Value to be written to the field.
* @return A merge write data structure to chain further writes.
*/
template <typename F>
static MergeWrite<typename F::parent_register, F::mask> merge_write(
const typename F::type value) noexcept {
return MergeWrite<typename F::parent_register, F::mask>::create(
static_cast<type>((value << F::offset) & F::mask));
}
//! Merge write start function for constant value.
/**
* @tparam F Field on which to perform the first write operation.
* @tparam value Value to be written to the field.
* @return A merge write data structure to chain further writes.
*/
template <typename F,
type value,
typename T = MergeWrite_tmpl<typename F::parent_register,
F::mask,
F::offset,
value>>
static T&& merge_write() noexcept {
// Check overflow.
static_assert(
internals::check_overflow<type, value, (F::mask >> F::offset)>::
value,
"Register::merge_write<value>:: value too large for the field");
return std::move(T::create());
}
// Sanity check.
static_assert(size != 0u, "Register:: register definition with zero size");
// Enforce alignment.
static_assert(internals::is_aligned<reg_address,
TypeTraits<reg_size>::byte_size>::value,
"Register:: address is mis-aligned for register type");
};
} // namespace cppreg
#endif // CPPREG_REGISTER_H
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