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rocm-systems/source/lib/omnitrace/library/thread_data.hpp
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// MIT License
//
// Copyright (c) 2022 Advanced Micro Devices, Inc. All Rights Reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
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// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
#pragma once
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#include "api.hpp"
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#include "library/common.hpp"
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#include "library/concepts.hpp"
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#include "library/config.hpp"
#include "library/defines.hpp"
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#include "library/state.hpp"
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#include "library/timemory.hpp"
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#include <timemory/utility/types.hpp>
#include <array>
#include <cstdint>
#include <cstdlib>
#include <memory>
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#include <optional>
#include <type_traits>
namespace omnitrace
{
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ThreadState set_thread_state(ThreadState);
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// bundle of components used in instrumentation
using instrumentation_bundle_t =
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tim::component_bundle<project::omnitrace, comp::wall_clock*,
comp::user_global_bundle*>;
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// allocator for instrumentation_bundle_t
using bundle_allocator_t = tim::data::ring_buffer_allocator<instrumentation_bundle_t>;
template <typename Tp>
struct thread_deleter;
// unique ptr type for omnitrace
template <typename Tp>
using unique_ptr_t = std::unique_ptr<Tp, thread_deleter<Tp>>;
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static constexpr size_t max_supported_threads = OMNITRACE_MAX_THREADS;
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template <>
struct thread_deleter<void>
{
void operator()() const;
};
extern template struct thread_deleter<void>;
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template <typename Tp>
struct thread_deleter
{
void operator()(Tp* ptr) const
{
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thread_deleter<void>{}();
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delete ptr;
}
};
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template <typename Tp>
struct generate
{
using type = Tp;
template <typename... Args>
auto operator()(Args&&... _args) const
{
if constexpr(concepts::is_unique_pointer<Tp>::value)
{
using value_type = typename type::element_type;
return type{ new value_type{ invoke(std::forward<Args>(_args), 0)... } };
}
else
{
return type{ invoke(std::forward<Args>(_args), 0)... };
}
}
private:
template <typename Up>
static auto invoke(Up&& _v, int,
std::enable_if_t<std::is_invocable<Up>::value, int> = 0)
-> decltype(std::forward<Up>(_v)())
{
return std::forward<Up>(_v)();
}
template <typename Up>
static auto&& invoke(Up&& _v, long)
{
return std::forward<Up>(_v);
}
};
using construct_on_init = std::true_type;
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struct construct_on_thread
{
int64_t index = threading::get_id();
};
template <typename Tp, typename Tag = void, size_t MaxThreads = max_supported_threads>
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struct thread_data
{
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using value_type = unique_ptr_t<Tp>;
using instance_array_t = std::array<value_type, MaxThreads>;
using construct_on_init = std::true_type;
template <typename... Args>
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static void construct(construct_on_thread&&, Args&&...);
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static value_type& instance();
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static instance_array_t& instances();
template <typename... Args>
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static value_type& instance(construct_on_thread&&, Args&&...);
template <typename... Args>
static instance_array_t& instances(construct_on_init, Args&&...);
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template <typename... Args>
static void construct(Args&&... args)
{
construct(construct_on_thread{}, std::forward<Args>(args)...);
}
template <typename... Args>
static value_type& instance(Args&&... args)
{
return instance(construct_on_thread{}, std::forward<Args>(args)...);
}
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static constexpr size_t size() { return MaxThreads; }
decltype(auto) begin() { return instances().begin(); }
decltype(auto) end() { return instances().end(); }
decltype(auto) begin() const { return instances().begin(); }
decltype(auto) end() const { return instances().end(); }
};
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
void
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thread_data<Tp, Tag, MaxThreads>::construct(construct_on_thread&& _t, Args&&... _args)
{
// construct outside of lambda to prevent data-race
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static auto& _instances = instances();
if(!_instances.at(_t.index))
_instances.at(_t.index) = generate<value_type>{}(std::forward<Args>(_args)...);
}
template <typename Tp, typename Tag, size_t MaxThreads>
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unique_ptr_t<Tp>&
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thread_data<Tp, Tag, MaxThreads>::instance()
{
return instances().at(threading::get_id());
}
template <typename Tp, typename Tag, size_t MaxThreads>
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typename thread_data<Tp, Tag, MaxThreads>::instance_array_t&
thread_data<Tp, Tag, MaxThreads>::instances()
{
static auto _v = instance_array_t{};
return _v;
}
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
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unique_ptr_t<Tp>&
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thread_data<Tp, Tag, MaxThreads>::instance(construct_on_thread&& _t, Args&&... _args)
{
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construct(construct_on_thread{ _t }, std::forward<Args>(_args)...);
return instances().at(_t.index);
}
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
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typename thread_data<Tp, Tag, MaxThreads>::instance_array_t&
thread_data<Tp, Tag, MaxThreads>::instances(construct_on_init, Args&&... _args)
{
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static auto& _v = [&]() -> instance_array_t& {
auto& _internal = instances();
for(size_t i = 0; i < MaxThreads; ++i)
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_internal.at(i) = generate<value_type>{}(std::forward<Args>(_args)...);
return _internal;
}();
return _v;
}
//--------------------------------------------------------------------------------------//
//
// thread_data with std::optional
//
//--------------------------------------------------------------------------------------//
template <typename Tp, typename Tag, size_t MaxThreads>
struct thread_data<std::optional<Tp>, Tag, MaxThreads>
{
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using value_type = std::optional<Tp>;
using instance_array_t = std::array<value_type, MaxThreads>;
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template <typename... Args>
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static void construct(construct_on_thread&&, Args&&...);
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static value_type& instance();
static instance_array_t& instances();
template <typename... Args>
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static value_type& instance(construct_on_thread&&, Args&&...);
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template <typename... Args>
static instance_array_t& instances(construct_on_init, Args&&...);
static constexpr size_t size() { return MaxThreads; }
decltype(auto) begin() { return instances().begin(); }
decltype(auto) end() { return instances().end(); }
decltype(auto) begin() const { return instances().begin(); }
decltype(auto) end() const { return instances().end(); }
};
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
void
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thread_data<std::optional<Tp>, Tag, MaxThreads>::construct(construct_on_thread&& _t,
Args&&... _args)
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{
// construct outside of lambda to prevent data-race
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static auto& _instances = instances();
if(!_instances.at(_t.index))
_instances.at(_t.index) = generate<value_type>{}(std::forward<Args>(_args)...);
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}
template <typename Tp, typename Tag, size_t MaxThreads>
std::optional<Tp>&
thread_data<std::optional<Tp>, Tag, MaxThreads>::instance()
{
return instances().at(threading::get_id());
}
template <typename Tp, typename Tag, size_t MaxThreads>
typename thread_data<std::optional<Tp>, Tag, MaxThreads>::instance_array_t&
thread_data<std::optional<Tp>, Tag, MaxThreads>::instances()
{
static auto _v = instance_array_t{};
return _v;
}
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
std::optional<Tp>&
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thread_data<std::optional<Tp>, Tag, MaxThreads>::instance(construct_on_thread&& _t,
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Args&&... _args)
{
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construct(construct_on_thread{ _t }, std::forward<Args>(_args)...);
return instances().at(_t.index);
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}
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
typename thread_data<std::optional<Tp>, Tag, MaxThreads>::instance_array_t&
thread_data<std::optional<Tp>, Tag, MaxThreads>::instances(construct_on_init,
Args&&... _args)
{
static auto& _v = [&]() -> instance_array_t& {
auto& _internal = instances();
for(size_t i = 0; i < MaxThreads; ++i)
_internal.at(i) = generate<value_type>{}(std::forward<Args>(_args)...);
return _internal;
}();
return _v;
}
//--------------------------------------------------------------------------------------//
//
// thread_data with raw data (no pointer)
//
//--------------------------------------------------------------------------------------//
using tim::identity;
using tim::identity_t;
template <typename Tp, typename Tag, size_t MaxThreads>
struct thread_data<identity<Tp>, Tag, MaxThreads>
{
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using value_type = Tp;
using instance_array_t = std::array<value_type, MaxThreads>;
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template <typename... Args>
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static void construct(construct_on_thread&&, Args&&...);
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static value_type& instance();
static instance_array_t& instances();
template <typename... Args>
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static value_type& instance(construct_on_thread&&, Args&&...);
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template <typename... Args>
static instance_array_t& instances(construct_on_init, Args&&...);
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template <typename... Args>
static void construct(Args&&... args)
{
construct(construct_on_thread{}, std::forward<Args>(args)...);
}
template <typename... Args>
static value_type& instance(Args&&... args)
{
return instance(construct_on_thread{}, std::forward<Args>(args)...);
}
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static constexpr size_t size() { return MaxThreads; }
decltype(auto) begin() { return instances().begin(); }
decltype(auto) end() { return instances().end(); }
decltype(auto) begin() const { return instances().begin(); }
decltype(auto) end() const { return instances().end(); }
};
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
void
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thread_data<identity<Tp>, Tag, MaxThreads>::construct(construct_on_thread&& _t,
Args&&... _args)
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{
// construct outside of lambda to prevent data-race
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static auto& _instances = instances();
if(!_instances.at(_t.index))
_instances.at(_t.index) = generate<value_type>{}(std::forward<Args>(_args)...);
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}
template <typename Tp, typename Tag, size_t MaxThreads>
Tp&
thread_data<identity<Tp>, Tag, MaxThreads>::instance()
{
return instances().at(threading::get_id());
}
template <typename Tp, typename Tag, size_t MaxThreads>
typename thread_data<identity<Tp>, Tag, MaxThreads>::instance_array_t&
thread_data<identity<Tp>, Tag, MaxThreads>::instances()
{
static auto _v = instance_array_t{};
return _v;
}
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
Tp&
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thread_data<identity<Tp>, Tag, MaxThreads>::instance(construct_on_thread&& _t,
Args&&... _args)
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{
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construct(construct_on_thread{ _t }, std::forward<Args>(_args)...);
return instances().at(_t.index);
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}
template <typename Tp, typename Tag, size_t MaxThreads>
template <typename... Args>
typename thread_data<identity<Tp>, Tag, MaxThreads>::instance_array_t&
thread_data<identity<Tp>, Tag, MaxThreads>::instances(construct_on_init, Args&&... _args)
{
static auto& _v = [&]() -> instance_array_t& {
auto& _internal = instances();
for(size_t i = 0; i < MaxThreads; ++i)
_internal.at(i) = generate<value_type>{}(std::forward<Args>(_args)...);
return _internal;
}();
return _v;
}
//--------------------------------------------------------------------------------------//
// there are currently some strange things that happen with
// vector<instrumentation_bundle_t> so using vector<instrumentation_bundle_t*> and
// timemory's ring_buffer_allocator to create contiguous memory-page aligned instances of
// the bundle
struct instrumentation_bundles
{
using instance_array_t = std::array<instrumentation_bundles, max_supported_threads>;
bundle_allocator_t allocator{};
std::vector<instrumentation_bundle_t*> bundles{};
static instance_array_t& instances();
};
} // namespace omnitrace