// Copyright(c) 2015-present, Gabi Melman & spdlog contributors. // Distributed under the MIT License (http://opensource.org/licenses/MIT) // circular q view of std::vector. #pragma once #include #include #include "spdlog/common.h" namespace spdlog { namespace details { template class circular_q { size_t max_items_ = 0; typename std::vector::size_type head_ = 0; typename std::vector::size_type tail_ = 0; size_t overrun_counter_ = 0; std::vector v_; public: using value_type = T; // empty ctor - create a disabled queue with no elements allocated at all circular_q() = default; explicit circular_q(size_t max_items) : max_items_(max_items + 1) // one item is reserved as marker for full q , v_(max_items_) {} circular_q(const circular_q &) = default; circular_q &operator=(const circular_q &) = default; // move cannot be default, // since we need to reset head_, tail_, etc to zero in the moved object circular_q(circular_q &&other) SPDLOG_NOEXCEPT { copy_moveable(std::move(other)); } circular_q &operator=(circular_q &&other) SPDLOG_NOEXCEPT { copy_moveable(std::move(other)); return *this; } // push back, overrun (oldest) item if no room left void push_back(T &&item) { if (max_items_ > 0) { v_[tail_] = std::move(item); tail_ = (tail_ + 1) % max_items_; if (tail_ == head_) // overrun last item if full { head_ = (head_ + 1) % max_items_; ++overrun_counter_; } } } // Return reference to the front item. // If there are no elements in the container, the behavior is undefined. const T &front() const { return v_[head_]; } T &front() { return v_[head_]; } // Return number of elements actually stored size_t size() const { if (tail_ >= head_) { return tail_ - head_; } else { return max_items_ - (head_ - tail_); } } // Return const reference to item by index. // If index is out of range 0…size()-1, the behavior is undefined. const T &at(size_t i) const { assert(i < size()); return v_[(head_ + i) % max_items_]; } // Pop item from front. // If there are no elements in the container, the behavior is undefined. void pop_front() { head_ = (head_ + 1) % max_items_; } bool empty() const { return tail_ == head_; } bool full() const { // head is ahead of the tail by 1 if (max_items_ > 0) { return ((tail_ + 1) % max_items_) == head_; } return false; } size_t overrun_counter() const { return overrun_counter_; } void reset_overrun_counter() { overrun_counter_ = 0; } private: // copy from other&& and reset it to disabled state void copy_moveable(circular_q &&other) SPDLOG_NOEXCEPT { max_items_ = other.max_items_; head_ = other.head_; tail_ = other.tail_; overrun_counter_ = other.overrun_counter_; v_ = std::move(other.v_); // put &&other in disabled, but valid state other.max_items_ = 0; other.head_ = other.tail_ = 0; other.overrun_counter_ = 0; } }; } // namespace details } // namespace spdlog