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mirror of synced 2024-12-14 16:52:53 +01:00
ImHex/lib/libimhex/source/api/task.cpp

348 lines
9.5 KiB
C++

#include <hex/api/task.hpp>
#include <hex/api/localization.hpp>
#include <hex/helpers/logger.hpp>
#include <algorithm>
#if defined(OS_WINDOWS)
#include <windows.h>
#include <processthreadsapi.h>
#else
#include <pthread.h>
#endif
namespace hex {
namespace {
std::mutex s_deferredCallsMutex, s_tasksFinishedMutex;
std::list<std::shared_ptr<Task>> s_tasks, s_taskQueue;
std::list<std::function<void()>> s_deferredCalls;
std::list<std::function<void()>> s_tasksFinishedCallbacks;
std::mutex s_queueMutex;
std::condition_variable s_jobCondVar;
std::vector<std::jthread> s_workers;
}
static void setThreadName(const std::string &name) {
#if defined(OS_WINDOWS)
typedef struct tagTHREADNAME_INFO {
DWORD dwType;
LPCSTR szName;
DWORD dwThreadID;
DWORD dwFlags;
} THREADNAME_INFO;
THREADNAME_INFO info;
info.dwType = 0x1000;
info.szName = name.c_str();
info.dwThreadID = ::GetCurrentThreadId();
info.dwFlags = 0;
const DWORD MS_VC_EXCEPTION = 0x406D1388;
RaiseException(MS_VC_EXCEPTION, 0, sizeof(info) / sizeof(ULONG_PTR), (ULONG_PTR*)&info);
#elif defined(OS_LINUX)
pthread_setname_np(pthread_self(), name.c_str());
#elif defined(OS_MACOS)
pthread_setname_np(name.c_str());
#endif
}
Task::Task(std::string unlocalizedName, u64 maxValue, bool background, std::function<void(Task &)> function)
: m_unlocalizedName(std::move(unlocalizedName)), m_currValue(0), m_maxValue(maxValue), m_function(std::move(function)), m_background(background) { }
Task::Task(hex::Task &&other) noexcept {
{
std::scoped_lock thisLock(this->m_mutex);
std::scoped_lock otherLock(other.m_mutex);
this->m_function = std::move(other.m_function);
this->m_unlocalizedName = std::move(other.m_unlocalizedName);
}
this->m_maxValue = u64(other.m_maxValue);
this->m_currValue = u64(other.m_currValue);
this->m_finished = bool(other.m_finished);
this->m_hadException = bool(other.m_hadException);
this->m_interrupted = bool(other.m_interrupted);
this->m_shouldInterrupt = bool(other.m_shouldInterrupt);
}
Task::~Task() {
if (!this->isFinished())
this->interrupt();
}
void Task::update(u64 value) {
this->m_currValue = value;
if (this->m_shouldInterrupt) [[unlikely]]
throw TaskInterruptor();
}
void Task::setMaxValue(u64 value) {
this->m_maxValue = value;
}
void Task::interrupt() {
this->m_shouldInterrupt = true;
if (this->m_interruptCallback)
this->m_interruptCallback();
}
void Task::setInterruptCallback(std::function<void()> callback) {
this->m_interruptCallback = std::move(callback);
}
bool Task::isBackgroundTask() const {
return this->m_background;
}
bool Task::isFinished() const {
return this->m_finished;
}
bool Task::hadException() const {
return this->m_hadException;
}
bool Task::shouldInterrupt() const {
return this->m_shouldInterrupt;
}
bool Task::wasInterrupted() const {
return this->m_interrupted;
}
void Task::clearException() {
this->m_hadException = false;
}
std::string Task::getExceptionMessage() const {
std::scoped_lock lock(this->m_mutex);
return this->m_exceptionMessage;
}
const std::string &Task::getUnlocalizedName() {
return this->m_unlocalizedName;
}
u64 Task::getValue() const {
return this->m_currValue;
}
u64 Task::getMaxValue() const {
return this->m_maxValue;
}
void Task::finish() {
this->m_finished = true;
}
void Task::interruption() {
this->m_interrupted = true;
}
void Task::exception(const char *message) {
std::scoped_lock lock(this->m_mutex);
this->m_exceptionMessage = message;
this->m_hadException = true;
}
bool TaskHolder::isRunning() const {
if (this->m_task.expired())
return false;
auto task = this->m_task.lock();
return !task->isFinished();
}
bool TaskHolder::hadException() const {
if (this->m_task.expired())
return false;
auto task = this->m_task.lock();
return !task->hadException();
}
bool TaskHolder::shouldInterrupt() const {
if (this->m_task.expired())
return false;
auto task = this->m_task.lock();
return !task->shouldInterrupt();
}
bool TaskHolder::wasInterrupted() const {
if (this->m_task.expired())
return false;
auto task = this->m_task.lock();
return !task->wasInterrupted();
}
void TaskHolder::interrupt() {
if (this->m_task.expired())
return;
auto task = this->m_task.lock();
task->interrupt();
}
u32 TaskHolder::getProgress() const {
if (this->m_task.expired())
return 0;
auto task = this->m_task.lock();
return (u32)((task->getValue() * 100) / task->getMaxValue());
}
void TaskManager::init() {
const auto threadCount = std::thread::hardware_concurrency();
log::debug("Initializing task manager thread pool with {} workers.", threadCount);
for (u32 i = 0; i < threadCount; i++)
s_workers.emplace_back(TaskManager::runner);
}
void TaskManager::exit() {
for (auto &task : s_tasks)
task->interrupt();
for (auto &thread : s_workers)
thread.request_stop();
s_jobCondVar.notify_all();
s_workers.clear();
}
void TaskManager::runner(const std::stop_token &stopToken) {
while (true) {
std::shared_ptr<Task> task;
{
std::unique_lock lock(s_queueMutex);
s_jobCondVar.wait(lock, [&] {
return !s_taskQueue.empty() || stopToken.stop_requested();
});
if (stopToken.stop_requested())
break;
task = std::move(s_taskQueue.front());
s_taskQueue.pop_front();
}
try {
setThreadName(LangEntry(task->m_unlocalizedName));
task->m_function(*task);
log::debug("Finished task {}", task->m_unlocalizedName);
} catch (const Task::TaskInterruptor &) {
task->interruption();
} catch (const std::exception &e) {
log::error("Exception in task {}: {}", task->m_unlocalizedName, e.what());
task->exception(e.what());
} catch (...) {
log::error("Exception in task {}", task->m_unlocalizedName);
task->exception("Unknown Exception");
}
task->finish();
}
}
TaskHolder TaskManager::createTask(std::string name, u64 maxValue, std::function<void(Task &)> function) {
log::debug("Creating task {}", name);
std::unique_lock lock(s_queueMutex);
auto task = std::make_shared<Task>(std::move(name), maxValue, false, std::move(function));
s_tasks.emplace_back(task);
s_taskQueue.emplace_back(task);
s_jobCondVar.notify_one();
return TaskHolder(s_tasks.back());
}
TaskHolder TaskManager::createBackgroundTask(std::string name, std::function<void(Task &)> function) {
log::debug("Creating background task {}", name);
std::unique_lock lock(s_queueMutex);
auto task = std::make_shared<Task>(std::move(name), 0, true, std::move(function));
s_tasks.emplace_back(task);
s_taskQueue.emplace_back(task);
s_jobCondVar.notify_one();
return TaskHolder(s_tasks.back());
}
void TaskManager::collectGarbage() {
{
std::unique_lock lock1(s_queueMutex);
std::erase_if(s_tasks, [](const auto &task) { return task->isFinished() && !task->hadException(); });
}
if (s_tasks.empty()) {
std::unique_lock lock2(s_deferredCallsMutex);
for (auto &call : s_tasksFinishedCallbacks)
call();
s_tasksFinishedCallbacks.clear();
}
}
std::list<std::shared_ptr<Task>> &TaskManager::getRunningTasks() {
return s_tasks;
}
size_t TaskManager::getRunningTaskCount() {
std::unique_lock lock(s_queueMutex);
return std::count_if(s_tasks.begin(), s_tasks.end(), [](const auto &task){
return !task->isBackgroundTask();
});
}
size_t TaskManager::getRunningBackgroundTaskCount() {
std::unique_lock lock(s_queueMutex);
return std::count_if(s_tasks.begin(), s_tasks.end(), [](const auto &task){
return task->isBackgroundTask();
});
}
void TaskManager::doLater(const std::function<void()> &function) {
std::scoped_lock lock(s_deferredCallsMutex);
s_deferredCalls.push_back(function);
}
void TaskManager::runDeferredCalls() {
std::scoped_lock lock(s_deferredCallsMutex);
for (const auto &call : s_deferredCalls)
call();
s_deferredCalls.clear();
}
void TaskManager::runWhenTasksFinished(const std::function<void()> &function) {
std::scoped_lock lock(s_tasksFinishedMutex);
s_tasksFinishedCallbacks.push_back(function);
}
}