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340 lines
12 KiB
C++
340 lines
12 KiB
C++
//
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// JustInTime.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 28/07/2019.
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// Copyright © 2019 Thomas Harte. All rights reserved.
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//
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#ifndef JustInTime_h
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#define JustInTime_h
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#include "ClockReceiver.hpp"
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#include "../Concurrency/AsyncTaskQueue.hpp"
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#include "ClockingHintSource.hpp"
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#include "ForceInline.hpp"
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#include <atomic>
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/*!
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A JustInTimeActor holds (i) an embedded object with a run_for method; and (ii) an amount
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of time since run_for was last called.
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Time can be added using the += operator. The -> operator can be used to access the
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embedded object. All time accumulated will be pushed to object before the pointer is returned.
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Machines that accumulate HalfCycle time but supply to a Cycle-counted device may supply a
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separate @c TargetTimeScale at template declaration.
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If the held object implements @c next_sequence_point() then it'll be used to flush implicitly
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as and when sequence points are hit. Callers can use will_flush() to predict these.
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If the held object is a subclass of ClockingHint::Source, this template will register as an
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observer and potentially stop clocking or stop delaying clocking until just-in-time references
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as directed.
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TODO: incorporate and codify AsyncJustInTimeActor.
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*/
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template <class T, class LocalTimeScale = HalfCycles, int multiplier = 1, int divider = 1> class JustInTimeActor:
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public ClockingHint::Observer {
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private:
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/*!
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A std::unique_ptr deleter which causes an update_sequence_point to occur on the actor supplied
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to it at construction if it implements @c next_sequence_point(). Otherwise destruction is a no-op.
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**Does not delete the object.**
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This is used by the -> operators below, which provide a unique pointer to the enclosed object and
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update their sequence points upon its destruction — i.e. after the caller has made whatever call
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or calls as were relevant to the enclosed object.
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*/
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class SequencePointAwareDeleter {
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public:
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explicit SequencePointAwareDeleter(JustInTimeActor<T, LocalTimeScale, multiplier, divider> *actor) noexcept
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: actor_(actor) {}
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forceinline void operator ()(const T *const) const {
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if constexpr (has_sequence_points<T>::value) {
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actor_->update_sequence_point();
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}
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}
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private:
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JustInTimeActor<T, LocalTimeScale, multiplier, divider> *const actor_;
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};
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// This block of SFINAE determines whether objects of type T accepts Cycles or HalfCycles.
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using HalfRunFor = void (T::*const)(HalfCycles);
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static uint8_t half_sig(...);
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static uint16_t half_sig(HalfRunFor);
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using TargetTimeScale =
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std::conditional_t<
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sizeof(half_sig(&T::run_for)) == sizeof(uint16_t),
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HalfCycles,
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Cycles>;
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public:
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/// Constructs a new JustInTimeActor using the same construction arguments as the included object.
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template<typename... Args> JustInTimeActor(Args&&... args) : object_(std::forward<Args>(args)...) {
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if constexpr (std::is_base_of<ClockingHint::Source, T>::value) {
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object_.set_clocking_hint_observer(this);
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}
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}
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/// Adds time to the actor.
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///
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/// @returns @c true if adding time caused a flush; @c false otherwise.
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forceinline bool operator += (LocalTimeScale rhs) {
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if constexpr (std::is_base_of<ClockingHint::Source, T>::value) {
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if(clocking_preference_ == ClockingHint::Preference::None) {
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return false;
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}
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}
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if constexpr (multiplier != 1) {
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time_since_update_ += rhs * multiplier;
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} else {
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time_since_update_ += rhs;
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}
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is_flushed_ = false;
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if constexpr (std::is_base_of<ClockingHint::Source, T>::value) {
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if (clocking_preference_ == ClockingHint::Preference::RealTime) {
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flush();
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return true;
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}
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}
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if constexpr (has_sequence_points<T>::value) {
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time_until_event_ -= rhs * multiplier;
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if(time_until_event_ <= LocalTimeScale(0)) {
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time_overrun_ = time_until_event_ / divider;
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flush();
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update_sequence_point();
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return true;
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}
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}
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return false;
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}
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/// Flushes all accumulated time and returns a pointer to the included object.
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///
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/// If this object provides sequence points, checks for changes to the next
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/// sequence point upon deletion of the pointer.
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[[nodiscard]] forceinline auto operator->() {
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#ifndef NDEBUG
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assert(!flush_concurrency_check_.test_and_set());
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#endif
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flush();
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#ifndef NDEBUG
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flush_concurrency_check_.clear();
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#endif
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return std::unique_ptr<T, SequencePointAwareDeleter>(&object_, SequencePointAwareDeleter(this));
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}
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/// Acts exactly as per the standard ->, but preserves constness.
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///
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/// Despite being const, this will flush the object and, if relevant, update the next sequence point.
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[[nodiscard]] forceinline auto operator -> () const {
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auto non_const_this = const_cast<JustInTimeActor<T, LocalTimeScale, multiplier, divider> *>(this);
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#ifndef NDEBUG
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assert(!non_const_this->flush_concurrency_check_.test_and_set());
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#endif
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non_const_this->flush();
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#ifndef NDEBUG
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non_const_this->flush_concurrency_check_.clear();
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#endif
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return std::unique_ptr<const T, SequencePointAwareDeleter>(&object_, SequencePointAwareDeleter(non_const_this));
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}
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/// @returns a pointer to the included object, without flushing time.
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[[nodiscard]] forceinline T *last_valid() {
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return &object_;
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}
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/// @returns a const pointer to the included object, without flushing time.
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[[nodiscard]] forceinline const T *last_valid() const {
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return &object_;
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}
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/// @returns the amount of time since the object was last flushed, in the target time scale.
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[[nodiscard]] forceinline TargetTimeScale time_since_flush() const {
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if constexpr (divider == 1) {
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return time_since_update_;
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}
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return TargetTimeScale(time_since_update_.as_integral() / divider);
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}
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/// @returns the amount of time since the object was last flushed, plus the local time scale @c offset,
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/// converted to the target time scale.
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[[nodiscard]] forceinline TargetTimeScale time_since_flush(LocalTimeScale offset) const {
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if constexpr (divider == 1) {
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return time_since_update_ + offset;
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}
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return TargetTimeScale((time_since_update_ + offset).as_integral() / divider);
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}
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/// Flushes all accumulated time.
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///
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/// This does not affect this actor's record of when the next sequence point will occur.
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forceinline void flush() {
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if(!is_flushed_) {
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did_flush_ = is_flushed_ = true;
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if constexpr (divider == 1) {
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const auto duration = time_since_update_.template flush<TargetTimeScale>();
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object_.run_for(duration);
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} else {
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const auto duration = time_since_update_.template divide<TargetTimeScale>(LocalTimeScale(divider));
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if(duration > TargetTimeScale(0))
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object_.run_for(duration);
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}
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}
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}
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/// Indicates whether a flush has occurred since the last call to did_flush().
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[[nodiscard]] forceinline bool did_flush() {
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const bool did_flush = did_flush_;
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did_flush_ = false;
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return did_flush;
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}
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/// @returns a number in the range [-max, 0] indicating the offset of the most recent sequence
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/// point from the final time at the end of the += that triggered the sequence point.
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[[nodiscard]] forceinline LocalTimeScale last_sequence_point_overrun() {
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return time_overrun_;
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}
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/// @returns the number of cycles until the next sequence-point-based flush, if the embedded object
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/// supports sequence points; @c LocalTimeScale() otherwise.
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[[nodiscard]] LocalTimeScale cycles_until_implicit_flush() const {
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return time_until_event_ / divider;
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}
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/// Indicates whether a sequence-point-caused flush will occur if the specified period is added.
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[[nodiscard]] forceinline bool will_flush(LocalTimeScale rhs) const {
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if constexpr (!has_sequence_points<T>::value) {
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return false;
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}
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return rhs >= time_until_event_;
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}
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/// Indicates the amount of time, in the local time scale, until the first local slot that falls wholly
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/// after @c duration, if that delay were to occur in @c offset units of time from now.
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[[nodiscard]] forceinline LocalTimeScale back_map(TargetTimeScale duration, TargetTimeScale offset) const {
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// A 1:1 mapping is easy.
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if constexpr (multiplier == 1 && divider == 1) {
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return duration;
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}
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// Work out when this query is placed, and the time to which it relates
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const auto base = time_since_update_ + offset * divider;
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const auto target = base + duration * divider;
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// Figure out the number of whole input steps that is required to get
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// past target, and subtract the number of whole input steps necessary
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// to get to base.
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const auto steps_to_base = base.as_integral() / multiplier;
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const auto steps_to_target = (target.as_integral() + divider - 1) / multiplier;
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return LocalTimeScale(steps_to_target - steps_to_base);
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}
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/// Updates this template's record of the next sequence point.
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void update_sequence_point() {
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if constexpr (has_sequence_points<T>::value) {
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// Keep a fast path where no conversions will be applied; if conversions are
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// going to be applied then do a direct max -> max translation rather than
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// allowing the arithmetic to overflow.
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if constexpr (divider == 1 && std::is_same_v<LocalTimeScale, TargetTimeScale>) {
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time_until_event_ = object_.next_sequence_point();
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} else {
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const auto time = object_.next_sequence_point();
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if(time == TargetTimeScale::max()) {
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time_until_event_ = LocalTimeScale::max();
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} else {
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time_until_event_ = time * divider;
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}
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}
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assert(time_until_event_ > LocalTimeScale(0));
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}
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}
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/// @returns A cached copy of the object's clocking preference.
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ClockingHint::Preference clocking_preference() const {
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return clocking_preference_;
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}
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private:
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T object_;
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LocalTimeScale time_since_update_, time_until_event_, time_overrun_;
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bool is_flushed_ = true;
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bool did_flush_ = false;
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template <typename S, typename = void> struct has_sequence_points : std::false_type {};
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template <typename S> struct has_sequence_points<S, decltype(void(std::declval<S &>().next_sequence_point()))> : std::true_type {};
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ClockingHint::Preference clocking_preference_ = ClockingHint::Preference::JustInTime;
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void set_component_prefers_clocking(ClockingHint::Source *, ClockingHint::Preference clocking) {
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clocking_preference_ = clocking;
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}
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#ifndef NDEBUG
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std::atomic_flag flush_concurrency_check_{};
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#endif
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};
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/*!
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An AsyncJustInTimeActor acts like a JustInTimeActor but additionally contains an AsyncTaskQueue.
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Any time the amount of accumulated time crosses a threshold provided at construction time,
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the object will be updated on the AsyncTaskQueue.
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*/
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template <class T, class LocalTimeScale = HalfCycles, class TargetTimeScale = LocalTimeScale> class AsyncJustInTimeActor {
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public:
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/// Constructs a new AsyncJustInTimeActor using the same construction arguments as the included object.
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template<typename... Args> AsyncJustInTimeActor(TargetTimeScale threshold, Args&&... args) :
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object_(std::forward<Args>(args)...),
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threshold_(threshold) {}
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/// Adds time to the actor.
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inline void operator += (const LocalTimeScale &rhs) {
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time_since_update_ += rhs;
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if(time_since_update_ >= threshold_) {
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time_since_update_ -= threshold_;
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task_queue_.enqueue([this] () {
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object_.run_for(threshold_);
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});
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}
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is_flushed_ = false;
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}
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/// Flushes all accumulated time and returns a pointer to the included object.
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inline T *operator->() {
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flush();
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return &object_;
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}
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/// Returns a pointer to the included object without flushing time.
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inline T *last_valid() {
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return &object_;
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}
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/// Flushes all accumulated time.
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inline void flush() {
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if(!is_flushed_) {
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task_queue_.flush();
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object_.run_for(time_since_update_.template flush<TargetTimeScale>());
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is_flushed_ = true;
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}
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}
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private:
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T object_;
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LocalTimeScale time_since_update_;
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TargetTimeScale threshold_;
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bool is_flushed_ = true;
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Concurrency::AsyncTaskQueue<true> task_queue_;
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};
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#endif /* JustInTime_h */
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