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CLK/Machines/TimedMachine.hpp
2022-07-12 10:57:22 -04:00

104 lines
2.7 KiB
C++

//
// TimedMachine.hpp
// Clock Signal
//
// Created by Thomas Harte on 31/03/2020.
// Copyright © 2020 Thomas Harte. All rights reserved.
//
#ifndef TimedMachine_h
#define TimedMachine_h
#include "../ClockReceiver/ClockReceiver.hpp"
#include "../ClockReceiver/TimeTypes.hpp"
#include "AudioProducer.hpp"
#include "ScanProducer.hpp"
#include <cmath>
namespace MachineTypes {
/*!
A timed machine is any which requires the owner to provide time-based updates,
i.e. run_for(<some number of seconds>)-type calls.
*/
class TimedMachine {
public:
/// Runs the machine for @c duration seconds.
virtual void run_for(Time::Seconds duration) {
const double cycles = (duration * clock_rate_ * speed_multiplier_) + clock_conversion_error_;
clock_conversion_error_ = std::fmod(cycles, 1.0);
run_for(Cycles(int(cycles)));
}
/*!
Sets a speed multiplier to apply to this machine; e.g. a multiplier of 1.5 will cause the
emulated machine to run 50% faster than a real machine. This speed-up is an emulation
fiction: it will apply across the system, including to the CRT.
*/
virtual void set_speed_multiplier(double multiplier) {
if(speed_multiplier_ == multiplier) {
return;
}
speed_multiplier_ = multiplier;
auto audio_producer = dynamic_cast<AudioProducer *>(this);
if(!audio_producer) return;
auto speaker = audio_producer->get_speaker();
if(speaker) {
speaker->set_input_rate_multiplier(float(multiplier));
}
}
/*!
@returns The current speed multiplier.
*/
virtual double get_speed_multiplier() const {
return speed_multiplier_;
}
/// @returns The confidence that this machine is running content it understands.
virtual float get_confidence() { return 0.5f; }
virtual std::string debug_type() { return ""; }
struct Output {
static constexpr int Video = 1 << 0;
static constexpr int Audio = 1 << 1;
static constexpr int All = Video | Audio;
};
/// Ensures all locally-buffered output is posted onward for the types of output indicated
/// by the bitfield argument, which is comprised of flags from the namespace @c Output.
virtual void flush_output(int) {}
protected:
/// Runs the machine for @c cycles.
virtual void run_for(const Cycles cycles) = 0;
/// Sets this machine's clock rate.
void set_clock_rate(double clock_rate) {
clock_rate_ = clock_rate;
}
/// Gets this machine's clock rate.
double get_clock_rate() const {
return clock_rate_;
}
private:
// Give the ScanProducer access to this machine's clock rate.
friend class ScanProducer;
double clock_rate_ = 1.0;
double clock_conversion_error_ = 0.0;
double speed_multiplier_ = 1.0;
};
}
#endif /* TimedMachine_h */