// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/pending_task.h" #include "base/message_loop/message_loop.h" namespace base { PendingTask::PendingTask(const Location& posted_from, OnceClosure task, TimeTicks delayed_run_time, Nestable nestable) : task(std::move(task)), posted_from(posted_from), delayed_run_time(delayed_run_time), sequence_num(0), nestable(nestable), is_high_res(false) { const PendingTask* parent_task = MessageLoop::current() ? MessageLoop::current()->current_pending_task_ : nullptr; if (parent_task) { task_backtrace[0] = parent_task->posted_from.program_counter(); std::copy(parent_task->task_backtrace.begin(), parent_task->task_backtrace.end() - 1, task_backtrace.begin() + 1); } else { task_backtrace.fill(nullptr); } } PendingTask::PendingTask(PendingTask&& other) = default; PendingTask::~PendingTask() { } PendingTask& PendingTask::operator=(PendingTask&& other) = default; bool PendingTask::operator<(const PendingTask& other) const { // Since the top of a priority queue is defined as the "greatest" element, we // need to invert the comparison here. We want the smaller time to be at the // top of the heap. if (delayed_run_time < other.delayed_run_time) return false; if (delayed_run_time > other.delayed_run_time) return true; // If the times happen to match, then we use the sequence number to decide. // Compare the difference to support integer roll-over. return (sequence_num - other.sequence_num) > 0; } } // namespace base