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293 lines
8.6 KiB
C++
293 lines
8.6 KiB
C++
//
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// Drive.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 25/09/2016.
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// Copyright 2016 Thomas Harte. All rights reserved.
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//
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#ifndef Drive_hpp
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#define Drive_hpp
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#include "Disk.hpp"
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#include "Track/PCMSegment.hpp"
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#include "Track/PCMTrack.hpp"
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#include "../TimedEventLoop.hpp"
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#include "../../Activity/Observer.hpp"
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#include "../../ClockReceiver/ClockingHintSource.hpp"
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#include <memory>
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namespace Storage {
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namespace Disk {
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class Drive: public ClockingHint::Source, public TimedEventLoop {
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public:
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enum class ReadyType {
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/// Indicates that RDY will go active when the motor is on and two index holes have passed; it will go inactive when the motor is off.
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ShugartRDY,
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/// Indicates that RDY will go active when the motor is on and two index holes have passed; it will go inactive when the disk is ejected.
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ShugartModifiedRDY,
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/// Indicates that RDY will go active when the head steps; it will go inactive when the disk is ejected.
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IBMRDY,
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};
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Drive(int input_clock_rate, int revolutions_per_minute, int number_of_heads, ReadyType rdy_type = ReadyType::ShugartRDY);
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Drive(int input_clock_rate, int number_of_heads, ReadyType rdy_type = ReadyType::ShugartRDY);
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virtual ~Drive();
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/*!
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Replaces whatever is in the drive with @c disk. Supply @c nullptr to eject any current disk and leave none inserted.
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*/
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void set_disk(const std::shared_ptr<Disk> &disk);
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/*!
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@returns @c true if a disk is currently inserted; @c false otherwise.
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*/
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bool has_disk() const;
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/*!
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@returns @c true if the drive head is currently at track zero; @c false otherwise.
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*/
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bool get_is_track_zero() const;
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/*!
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Steps the disk head the specified number of tracks. Positive numbers step inwards (i.e. away from track 0),
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negative numbers step outwards (i.e. towards track 0).
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*/
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void step(HeadPosition offset);
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/*!
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Sets the current read head.
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*/
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void set_head(int head);
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/*!
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Gets the head count for this disk.
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*/
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int get_head_count() const;
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/*!
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@returns @c true if the inserted disk is read-only or no disk is inserted; @c false otherwise.
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*/
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bool get_is_read_only() const;
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/*!
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@returns @c true if the drive is ready; @c false otherwise.
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*/
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bool get_is_ready() const;
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/*!
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Sets whether the disk motor is on.
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*/
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void set_motor_on(bool);
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/*!
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@returns @c true if the motor on input is active; @c false otherwise. This does not necessarily indicate whether the drive is spinning, due to momentum.
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*/
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bool get_motor_on() const;
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/*!
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@returns @c true if the index pulse output is active; @c false otherwise.
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*/
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bool get_index_pulse() const;
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/*!
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Begins write mode, initiating a PCM sampled region of data. Bits should be written via
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@c write_bit. They will be written with the length set via @c set_expected_bit_length.
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It is acceptable to supply a backlog of bits. Flux transition events will not be reported
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while writing.
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@param clamp_to_index_hole If @c true then writing will automatically be truncated by
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the index hole. Writing will continue over the index hole otherwise.
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*/
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void begin_writing(Time bit_length, bool clamp_to_index_hole);
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/*!
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Writes the bit @c value as the next in the PCM stream initiated by @c begin_writing.
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*/
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void write_bit(bool value);
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/*!
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Ends write mode, switching back to read mode. The drive will stop overwriting events.
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*/
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void end_writing();
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/*!
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@returns @c true if the drive has received a call to begin_writing but not yet a call to
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end_writing; @c false otherwise.
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*/
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bool is_writing() const;
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/*!
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Advances the drive by @c number_of_cycles cycles.
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*/
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void run_for(const Cycles cycles);
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struct Event {
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Track::Event::Type type;
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float length = 0.0f;
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} current_event_;
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/*!
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Provides a mechanism to receive track events as they occur, including the synthetic
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event of "you told me to output the following data, and I've done that now".
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*/
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struct EventDelegate {
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/// Informs the delegate that @c event has been reached.
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virtual void process_event(const Event &event) = 0;
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/*!
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If the drive is in write mode, announces that all queued bits have now been written.
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If the controller provides further bits now then there will be no gap in written data.
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*/
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virtual void process_write_completed() {}
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/// Informs the delegate of the passing of @c cycles.
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virtual void advance([[maybe_unused]] Cycles cycles) {}
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};
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/// Sets the current event delegate.
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void set_event_delegate(EventDelegate *);
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// As per Sleeper.
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ClockingHint::Preference preferred_clocking() const final;
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/// Adds an activity observer; it'll be notified of disk activity.
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/// The caller can specify whether to add an LED based on disk motor.
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void set_activity_observer(Activity::Observer *observer, const std::string &name, bool add_motor_led);
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/*!
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Attempts to step to the specified offset and returns the track there if one exists; an uninitialised
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track otherwise.
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This is unambiguously **NOT A REALISTIC DRIVE FUNCTION**; real drives cannot step to a given offset.
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So it is **NOT FOR HARDWARE EMULATION USAGE**.
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It's for the benefit of user-optional fast-loading mechanisms **ONLY**.
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*/
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std::shared_ptr<Track> step_to(HeadPosition offset);
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/*!
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Alters the rotational velocity of this drive.
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*/
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void set_rotation_speed(float revolutions_per_minute);
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/*!
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@returns the current value of the tachometer pulse offered by some drives.
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*/
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bool get_tachometer() const;
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protected:
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/*!
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Announces the result of a step.
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*/
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virtual void did_step([[maybe_unused]] HeadPosition to_position) {}
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/*!
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Announces new media installation.
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*/
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virtual void did_set_disk() {}
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/*!
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@returns the current rotation of the disk, a float in the half-open range
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0.0 (the index hole) to 1.0 (back to the index hole, a whole rotation later).
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*/
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float get_rotation() const;
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private:
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// Drives contain an entire disk; from that a certain track
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// will be currently under the head.
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std::shared_ptr<Disk> disk_;
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std::shared_ptr<Track> track_;
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bool has_disk_ = false;
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// Contains the multiplier that converts between track-relative lengths
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// to real-time lengths. So it's the reciprocal of rotation speed.
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float rotational_multiplier_ = 1.0f;
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// A count of time since the index hole was last seen. Which is used to
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// determine how far the drive is into a full rotation when switching to
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// a new track.
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Cycles::IntType cycles_since_index_hole_ = 0;
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// The number of cycles that should fall within one revolution at the
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// current rotation speed.
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int cycles_per_revolution_ = 1;
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// A record of head position and active head.
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HeadPosition head_position_;
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int head_ = 0;
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int available_heads_ = 0;
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// Motor control state.
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bool motor_input_is_on_ = false;
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bool disk_is_rotating_ = false;
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Cycles time_until_motor_transition;
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void set_disk_is_rotating(bool);
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// Current state of the index pulse output.
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Cycles index_pulse_remaining_;
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// If the drive is not currently reading then it is writing. While writing
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// it can optionally be told to clamp to the index hole.
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bool is_reading_ = true;
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bool clamp_writing_to_index_hole_ = false;
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// If writing is occurring then the drive will be accumulating a write segment,
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// for addition to a (high-resolution) PCM track.
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std::shared_ptr<PCMTrack> patched_track_;
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PCMSegment write_segment_;
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Time write_start_time_;
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// Indicates progress towards Shugart-style drive ready states.
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int ready_index_count_ = 0;
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ReadyType ready_type_;
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bool is_ready_ = false;
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// Maintains appropriate counting to know when to indicate that writing
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// is complete.
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Time cycles_until_bits_written_;
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Time cycles_per_bit_;
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// TimedEventLoop call-ins and state.
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void process_next_event() override;
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void get_next_event(float duration_already_passed);
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void advance(const Cycles cycles) override;
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// Helper for track changes.
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float get_time_into_track() const;
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// The target (if any) for track events.
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EventDelegate *event_delegate_ = nullptr;
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/*!
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@returns the track underneath the current head at the location now stepped to.
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*/
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std::shared_ptr<Track> get_track();
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/*!
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Attempts to set @c track as the track underneath the current head at the location now stepped to.
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*/
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void set_track(const std::shared_ptr<Track> &track);
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void setup_track();
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void invalidate_track();
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// Activity observer description.
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Activity::Observer *observer_ = nullptr;
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std::string drive_name_;
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bool announce_motor_led_ = false;
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// A rotating random data source.
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uint64_t random_source_;
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float random_interval_;
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};
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}
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}
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#endif /* Drive_hpp */
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