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b514756272
Exposed to SDL users only, for now.
198 lines
6.1 KiB
C++
198 lines
6.1 KiB
C++
//
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// CRTMachine.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 31/05/2016.
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// Copyright 2016 Thomas Harte. All rights reserved.
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//
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#ifndef CRTMachine_hpp
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#define CRTMachine_hpp
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#include "../Outputs/ScanTarget.hpp"
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#include "../Outputs/Speaker/Speaker.hpp"
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#include "../ClockReceiver/ClockReceiver.hpp"
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#include "../ClockReceiver/TimeTypes.hpp"
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#include "ROMMachine.hpp"
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#include "../Configurable/StandardOptions.hpp"
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#include <array>
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#include <cmath>
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// TODO: rename.
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namespace CRTMachine {
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/*!
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A CRTMachine::Machine is a mostly-abstract base class for machines that connect to a CRT,
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that optionally provide a speaker, and that nominate a clock rate and can announce to a delegate
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should that clock rate change.
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*/
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class Machine {
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public:
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/*!
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Causes the machine to set up its display and, if it has one, speaker.
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The @c scan_target will receive all video output; the caller guarantees
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that it is non-null.
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*/
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virtual void set_scan_target(Outputs::Display::ScanTarget *scan_target) = 0;
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/*!
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@returns The current scan status.
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*/
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virtual Outputs::Display::ScanStatus get_scan_status() const {
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return get_scaled_scan_status() / float(clock_rate_);
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}
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/// @returns The speaker that receives this machine's output, or @c nullptr if this machine is mute.
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virtual Outputs::Speaker::Speaker *get_speaker() = 0;
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/// @returns The confidence that this machine is running content it understands.
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virtual float get_confidence() { return 0.5f; }
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virtual std::string debug_type() { return ""; }
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/// Runs the machine for @c duration seconds.
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virtual void run_for(Time::Seconds duration) {
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const double cycles = (duration * clock_rate_ * speed_multiplier_) + clock_conversion_error_;
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clock_conversion_error_ = std::fmod(cycles, 1.0);
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run_for(Cycles(static_cast<int>(cycles)));
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}
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/*!
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Sets a speed multiplier to apply to this machine; e.g. a multiplier of 1.5 will cause the
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emulated machine to run 50% faster than a real machine. This speed-up is an emulation
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fiction: it will apply across the system, including to the CRT.
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*/
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virtual void set_speed_multiplier(double multiplier) {
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speed_multiplier_ = multiplier;
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auto speaker = get_speaker();
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if(speaker) {
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speaker->set_input_rate_multiplier(float(multiplier));
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}
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}
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/*!
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@returns The current speed multiplier.
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*/
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virtual double get_speed_multiplier() {
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return speed_multiplier_;
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}
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/*!
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Runs for the machine for at least @c duration seconds, and then until @c condition is true.
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@returns The amount of time run for.
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*/
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Time::Seconds run_until(Time::Seconds minimum_duration, std::function<bool()> condition) {
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Time::Seconds total_runtime = minimum_duration;
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run_for(minimum_duration);
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while(!condition()) {
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// Advance in increments of one 500th of a second until the condition
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// is true; that's 1/10th of a 50Hz frame, but more like 1/8.33 of a
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// 60Hz frame. Though most machines aren't exactly 50Hz or 60Hz, and some
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// are arbitrary other refresh rates. So those observations are merely
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// for scale.
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run_for(0.002);
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total_runtime += 0.002;
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}
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return total_runtime;
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}
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enum MachineEvent: int {
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/// At least one new packet of audio has been delivered to the spaker's delegate.
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NewSpeakerSamplesGenerated = 1 << 0,
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/// The next vertical retrace has begun.
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VerticalSync = 1 << 1,
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};
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/*!
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Runs for at least @c duration seconds, and then every one of the @c events has occurred at least once since this
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call to @c run_until_event.
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@param events A bitmask comprised of @c MachineEvent flags.
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@returns The amount of time run for.
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*/
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Time::Seconds run_until(Time::Seconds minimum_duration, int events) {
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// Tie up a wait-for-samples, if requested.
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const Outputs::Speaker::Speaker *speaker = nullptr;
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int sample_sets = 0;
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if(events & MachineEvent::NewSpeakerSamplesGenerated) {
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speaker = get_speaker();
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if(!speaker) events &= ~MachineEvent::NewSpeakerSamplesGenerated;
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sample_sets = speaker->completed_sample_sets();
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}
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int retraces = 0;
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if(events & MachineEvent::VerticalSync) {
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retraces = get_scan_status().hsync_count;
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}
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// Run until all requested events are satisfied.
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return run_until(minimum_duration, [=]() {
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return
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(!(events & MachineEvent::NewSpeakerSamplesGenerated) || (sample_sets != speaker->completed_sample_sets())) &&
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(!(events & MachineEvent::VerticalSync) || (retraces != get_scan_status().hsync_count));
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});
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}
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protected:
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/// Runs the machine for @c cycles.
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virtual void run_for(const Cycles cycles) = 0;
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void set_clock_rate(double clock_rate) {
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clock_rate_ = clock_rate;
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}
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double get_clock_rate() {
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return clock_rate_;
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}
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virtual Outputs::Display::ScanStatus get_scaled_scan_status() const {
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// This deliberately sets up an infinite loop if the user hasn't
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// overridden at least one of this or get_scan_status.
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//
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// Most likely you want to override this, and let the base class
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// throw in a divide-by-clock-rate at the end for you.
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return get_scan_status();
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}
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/*!
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Maps from Configurable::Display to Outputs::Display::VideoSignal and calls
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@c set_display_type with the result.
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*/
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void set_video_signal_configurable(Configurable::Display type) {
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Outputs::Display::DisplayType display_type;
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switch(type) {
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default:
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case Configurable::Display::RGB:
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display_type = Outputs::Display::DisplayType::RGB;
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break;
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case Configurable::Display::SVideo:
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display_type = Outputs::Display::DisplayType::SVideo;
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break;
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case Configurable::Display::CompositeColour:
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display_type = Outputs::Display::DisplayType::CompositeColour;
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break;
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case Configurable::Display::CompositeMonochrome:
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display_type = Outputs::Display::DisplayType::CompositeMonochrome;
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break;
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}
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set_display_type(display_type);
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}
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/*!
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Forwards the video signal to the target returned by get_crt().
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*/
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virtual void set_display_type(Outputs::Display::DisplayType display_type) {}
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private:
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double clock_rate_ = 1.0;
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double clock_conversion_error_ = 0.0;
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double speed_multiplier_ = 1.0;
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};
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}
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#endif /* CRTMachine_hpp */
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