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CLK/Storage/Disk/Track/Track.hpp

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//
// Track.hpp
// Clock Signal
//
// Created by Thomas Harte on 22/09/2017.
// Copyright 2017 Thomas Harte. All rights reserved.
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//
#ifndef Track_h
#define Track_h
#include "../../Storage.hpp"
#include <tuple>
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namespace Storage {
namespace Disk {
/*!
Contains a head position, with some degree of sub-integral precision.
*/
class HeadPosition {
public:
/// Creates an instance decribing position @c value at a resolution of @c scale ticks per track.
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constexpr HeadPosition(int value, int scale) : position_(value * (4/scale)) {}
constexpr explicit HeadPosition(int value) : HeadPosition(value, 1) {}
constexpr HeadPosition() : HeadPosition(0) {}
/// @returns the whole number part of the position.
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constexpr int as_int() const { return position_ >> 2; }
/// @returns n where n/2 is the head position.
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constexpr int as_half() const { return position_ >> 1; }
/// @returns n where n/4 is the head position.
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constexpr int as_quarter() const { return position_; }
/// @returns the head position at maximal but unspecified precision.
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constexpr int as_largest() const { return as_quarter(); }
HeadPosition &operator +=(const HeadPosition &rhs) {
position_ += rhs.position_;
return *this;
}
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constexpr bool operator ==(const HeadPosition &rhs) const {
return position_ == rhs.position_;
}
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constexpr bool operator !=(const HeadPosition &rhs) const {
return position_ != rhs.position_;
}
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constexpr bool operator <(const HeadPosition &rhs) const {
return position_ < rhs.position_;
}
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constexpr bool operator <=(const HeadPosition &rhs) const {
return position_ <= rhs.position_;
}
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constexpr bool operator >(const HeadPosition &rhs) const {
return position_ > rhs.position_;
}
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constexpr bool operator >=(const HeadPosition &rhs) const {
return position_ >= rhs.position_;
}
private:
int position_ = 0;
};
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/*!
Models a single track on a disk as a series of events, each event being of arbitrary length
and resulting in either a flux transition or the sensing of an index hole.
Subclasses should implement @c get_next_event.
*/
class Track {
public:
virtual ~Track() {}
/*!
Describes the location of a track, implementing < to allow for use as a set key.
*/
struct Address {
int head;
HeadPosition position;
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constexpr bool operator < (const Address &rhs) const {
int largest_position = position.as_largest();
int rhs_largest_position = rhs.position.as_largest();
return std::tie(head, largest_position) < std::tie(rhs.head, rhs_largest_position);
}
Address(int head, HeadPosition position) : head(head), position(position) {}
};
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/*!
Describes a detectable track event: either a flux transition or the passing of the index hole,
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along with the length of time between the previous event and its occurance.
The sum of all lengths of time across an entire track should be 1; if an event is said to be
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1/3 away then that means 1/3 of a rotation.
*/
struct Event {
enum Type {
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IndexHole, FluxTransition
} type;
Time length;
};
/*!
@returns the next event that will be detected during rotation of this disk.
*/
virtual Event get_next_event() = 0;
/*!
Jumps to the event latest offset that is less than or equal to the input time.
@returns the time jumped to.
*/
virtual Time seek_to(const Time &time_since_index_hole) = 0;
/*!
The virtual copy constructor pattern; returns a copy of the Track.
*/
virtual Track *clone() const = 0;
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};
}
}
#endif /* Track_h */