scheduler.cpp

#include "pls/internal/scheduling/scheduler.h"
#include "pls/internal/scheduling/thread_state.h"

#include "pls/internal/base/thread.h"
#include "pls/internal/base/error_handling.h"
#include "pls/internal/helpers/profiler.h"

namespace pls {
namespace internal {
namespace scheduling {

scheduler::scheduler(scheduler_memory &memory, const unsigned int num_threads, bool reuse_thread) :
    num_threads_{num_threads},
    reuse_thread_{reuse_thread},
    memory_{memory},
    sync_barrier_{num_threads + 1 - reuse_thread},
    terminated_{false} {
  if (num_threads_ > memory.max_threads()) {
    PLS_ERROR("Tried to create scheduler with more OS threads than pre-allocated memory.");
  }

  for (unsigned int i = 0; i < num_threads_; i++) {
    // Placement new is required, as the memory of `memory_` is not required to be initialized.
    memory.thread_state_for(i).set_scheduler(this);
    memory.thread_state_for(i).set_id(i);

    if (reuse_thread && i == 0) {
      continue; // Skip over first/main thread when re-using the users thread, as this one will replace the first one.
    }
    memory.thread_for(i) = base::thread(&scheduler::work_thread_main_loop, &memory_.thread_state_for(i));
  }
}

scheduler::~scheduler() {
  terminate();
}

void scheduler::work_thread_main_loop() {
  auto &scheduler = thread_state::get().get_scheduler();
  while (true) {
    // Wait to be triggered
    scheduler.sync_barrier_.wait();

    // Check for shutdown
    if (scheduler.terminated_) {
      return;
    }

    scheduler.work_thread_work_section();

    // Sync back with main thread
    scheduler.sync_barrier_.wait();
  }
}

void scheduler::work_thread_work_section() {
  auto &my_state = thread_state::get();
  auto &my_task_manager = my_state.get_task_manager();

  auto const num_threads = my_state.get_scheduler().num_threads();
  auto const my_id = my_state.get_id();

  if (my_state.get_id() == 0) {
    // Main Thread, kick off by executing the user's main code block.
    main_thread_starter_function_->run();
  }

  do {
    // Steal Routine (will be continuously executed when there are no more fall through's).
    // TODO: move into separate function
//    const size_t offset = my_state.get_rand() % num_threads;
//    const size_t max_tries = num_threads;
//    for (size_t i = 0; i < max_tries; i++) {
//      size_t target = (offset + i) % num_threads;
//      auto &target_state = my_state.get_scheduler().thread_state_for(target);
//
//      auto *stolen_task = target_state.get_task_manager().steal_remote_task(my_cont_manager);
//      if (stolen_task != nullptr) {
//        stolen_task->execute();
//      }
//    }
//    if (!my_cont_manager.falling_through()) {
//      base::this_thread::sleep(5);
//    }
  } while (!work_section_done_);
}

void scheduler::terminate() {
  if (terminated_) {
    return;
  }

  terminated_ = true;
  sync_barrier_.wait();

  for (unsigned int i = 0; i < num_threads_; i++) {
    if (reuse_thread_ && i == 0) {
      continue;
    }
    memory_.thread_for(i).join();
  }
}

thread_state &scheduler::thread_state_for(size_t id) { return memory_.thread_state_for(id); }

}
}
}