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/**
*
* \section COPYRIGHT
*
* Copyright 2013-2021 Software Radio Systems Limited
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the distribution.
*
*/
#ifndef SRSRAN_MOVE_CALLBACK_H
#define SRSRAN_MOVE_CALLBACK_H
#include "detail/type_storage.h"
#include "srsran/support/srsran_assert.h"
#include <cstddef>
#include <cstdint>
#include <cstdio>
#include <cstdlib>
#include <functional>
#include <stdint.h>
#include <type_traits>
#if defined(__cpp_exceptions) && (1 == __cpp_exceptions)
#define THROW_BAD_FUNCTION_CALL(const char* cause) throw std::bad_function_call{};
#else
#define THROW_BAD_FUNCTION_CALL(cause) \
srsran_assert(false, "ERROR: exception thrown due to bad function call (cause: %s)\n", cause);
#endif
namespace srsran {
//! Size of the buffer used by "move_callback<R(Args...)>" to store functors without calling "new"
constexpr size_t default_move_callback_buffer_size = 32;
template <class Signature, size_t Capacity = default_move_callback_buffer_size, bool ForbidAlloc = false>
class move_callback;
namespace task_details {
//! Base vtable for move/call/destroy operations over the functor stored in "move_callback<R(Args...)"
template <typename R, typename... Args>
class oper_table_t
{
public:
constexpr oper_table_t() = default;
virtual R call(void* src, Args... args) const = 0;
virtual void move(void* src, void* dest) const = 0;
virtual void dtor(void* src) const = 0;
virtual bool is_in_small_buffer() const = 0;
};
//! specialization of move/call/destroy operations for when the "move_callback<R(Args...)>" is empty
template <typename R, typename... Args>
class empty_table_t : public oper_table_t<R, Args...>
{
public:
constexpr empty_table_t() = default;
R call(void* src, Args... args) const final
{
srsran_assertion_failure("bad function call (cause: function ptr is empty)");
}
void move(void* src, void* dest) const final {}
void dtor(void* src) const final {}
bool is_in_small_buffer() const final { return true; }
};
//! specialization of move/call/destroy operations for when the functor is stored in "move_callback<R(Args...)>" buffer
template <typename FunT, typename R, typename... Args>
class smallbuffer_table_t : public oper_table_t<R, Args...>
{
public:
constexpr smallbuffer_table_t() = default;
R call(void* src, Args... args) const final { return (*static_cast<FunT*>(src))(std::forward<Args>(args)...); }
void move(void* src, void* dest) const final
{
::new (dest) FunT(std::move(*static_cast<FunT*>(src)));
static_cast<FunT*>(src)->~FunT();
}
void dtor(void* src) const final { static_cast<FunT*>(src)->~FunT(); }
bool is_in_small_buffer() const final { return true; }
};
//! move/call/destroy operations for when the functor is stored outside of "move_callback<R(Args...)>" buffer
template <typename FunT, typename R, typename... Args>
class heap_table_t : public oper_table_t<R, Args...>
{
public:
constexpr heap_table_t() = default;
R call(void* src, Args... args) const final { return (**static_cast<FunT**>(src))(std::forward<Args>(args)...); }
void move(void* src, void* dest) const final
{
*static_cast<FunT**>(dest) = *static_cast<FunT**>(src);
*static_cast<FunT**>(src) = nullptr;
}
void dtor(void* src) const final { delete (*static_cast<FunT**>(src)); }
bool is_in_small_buffer() const final { return false; }
};
//! Metafunction to check if a type is an instantiation of move_callback<R(Args...)>
template <class>
struct is_move_callback : std::false_type {};
template <class Sig, size_t Capacity>
struct is_move_callback<move_callback<Sig, Capacity> > : std::true_type {};
//! metafunctions to enable different ctor implementations depending on whether the callback fits the small buffer
template <typename T, size_t Cap, typename FunT = typename std::decay<T>::type>
using enable_if_small_capture =
typename std::enable_if<sizeof(FunT) <= Cap and not is_move_callback<FunT>::value, bool>::type;
template <typename T, size_t Cap, typename FunT = typename std::decay<T>::type>
using enable_if_big_capture =
typename std::enable_if < Cap<sizeof(FunT) and not is_move_callback<FunT>::value, bool>::type;
} // namespace task_details
template <class R, class... Args, size_t Capacity, bool ForbidAlloc>
class move_callback<R(Args...), Capacity, ForbidAlloc>
{
static constexpr size_t capacity = Capacity >= sizeof(void*) ? Capacity : sizeof(void*); ///< size of buffer
using storage_t = typename std::aligned_storage<capacity, alignof(detail::max_alignment_t)>::type;
using oper_table_t = task_details::oper_table_t<R, Args...>;
static constexpr task_details::empty_table_t<R, Args...> empty_table{};
public:
move_callback() noexcept : oper_ptr(&empty_table) {}
//! Called when T capture fits the move_callback buffer
template <typename T, task_details::enable_if_small_capture<T, capacity> = true>
move_callback(T&& function) noexcept
{
using FunT = typename std::decay<T>::type;
static const task_details::smallbuffer_table_t<FunT, R, Args...> small_oper_table{};
oper_ptr = &small_oper_table;
::new (&buffer) FunT(std::forward<T>(function));
}
//! Called when T capture does not fit the move_callback buffer
template <typename T, task_details::enable_if_big_capture<T, capacity> = true>
move_callback(T&& function)
{
static_assert(
not ForbidAlloc,
"Failed to store provided callback in std::move_callback specialization that forbids heap allocations.");
using FunT = typename std::decay<T>::type;
static const task_details::heap_table_t<FunT, R, Args...> heap_oper_table{};
oper_ptr = &heap_oper_table;
ptr = static_cast<void*>(new FunT{std::forward<T>(function)});
}
move_callback(move_callback&& other) noexcept : oper_ptr(other.oper_ptr)
{
other.oper_ptr = &empty_table;
oper_ptr->move(&other.buffer, &buffer);
}
~move_callback() { oper_ptr->dtor(&buffer); }
move_callback& operator=(move_callback&& other) noexcept
{
oper_ptr->dtor(&buffer);
oper_ptr = other.oper_ptr;
other.oper_ptr = &empty_table;
oper_ptr->move(&other.buffer, &buffer);
return *this;
}
R operator()(Args... args) const noexcept { return oper_ptr->call(&buffer, std::forward<Args>(args)...); }
bool is_empty() const { return oper_ptr == &empty_table; }
bool is_in_small_buffer() const { return oper_ptr->is_in_small_buffer(); }
private:
union {
mutable storage_t buffer;
void* ptr;
};
const oper_table_t* oper_ptr;
};
template <typename R, typename... Args, size_t Capacity, bool ForbidAlloc>
constexpr task_details::empty_table_t<R, Args...> move_callback<R(Args...), Capacity, ForbidAlloc>::empty_table;
//! Generic move task
using move_task_t = move_callback<void(), 64>;
} // namespace srsran
#endif // SRSRAN_MOVE_CALLBACK_H