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CLK/ClockReceiver/JustInTime.hpp

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