// // DiskController.hpp // Clock Signal // // Created by Thomas Harte on 14/07/2016. // Copyright © 2016 Thomas Harte. All rights reserved. // #ifndef Storage_Disk_Controller_hpp #define Storage_Disk_Controller_hpp #include "../Drive.hpp" #include "../DPLL/DigitalPhaseLockedLoop.hpp" #include "../Track/PCMSegment.hpp" #include "../Track/PCMPatchedTrack.hpp" #include "../../../ClockReceiver/ClockReceiver.hpp" #include "../../../ClockReceiver/Sleeper.hpp" namespace Storage { namespace Disk { /*! Provides the shell for emulating a disk controller — something that is connected to a disk drive and uses a phase locked loop ('PLL') to decode a bit stream from the surface of the disk. Partly abstract; it is expected that subclasses will provide methods to deal with receiving a newly-recognised bit from the PLL and with crossing the index hole. TODO: communication of head size and permissible stepping extents, appropriate simulation of gain. */ class Controller: public DigitalPhaseLockedLoop::Delegate, public Drive::EventDelegate, public Sleeper, public Sleeper::SleepObserver { protected: /*! Constructs a @c Controller that will be run at @c clock_rate. */ Controller(Cycles clock_rate); /*! Communicates to the PLL the expected length of a bit as a fraction of a second. */ void set_expected_bit_length(Time bit_length); /*! Advances the drive by @c number_of_cycles cycles. */ void run_for(const Cycles cycles); /*! Sets the current drive. This drive is the one the PLL listens to. */ void set_drive(std::shared_ptr drive); /*! Should be implemented by subclasses; communicates each bit that the PLL recognises. */ virtual void process_input_bit(int value) = 0; /*! Should be implemented by subclasses; communicates that the index hole has been reached. */ virtual void process_index_hole() = 0; /*! Should be implemented by subclasses if they implement writing; communicates that all bits supplied to write_bit have now been written. */ virtual void process_write_completed(); /*! Puts the controller and the drive returned by get_drive() into write mode, supplying to the drive the current bit length. While the controller is in write mode it disconnects the PLL. So subclasses will not receive any calls to @c process_input_bit. @param clamp_to_index_hole If @c true then writing will automatically be truncated by the index hole. Writing will continue over the index hole otherwise. */ void begin_writing(bool clamp_to_index_hole); /*! Puts the drive returned by get_drive() out of write mode, and marks the controller as no longer being in write mode. */ void end_writing(); /*! @returns @c true if the controller is in reading mode; @c false otherwise. */ bool is_reading(); /*! Returns the connected drive or, if none is connected, an invented one. No guarantees are made about the lifetime or the exclusivity of the invented drive. */ Drive &get_drive(); /*! As per Sleeper. */ bool is_sleeping(); private: Time bit_length_; int clock_rate_multiplier_ = 1; int clock_rate_ = 1; bool is_reading_ = true; std::shared_ptr pll_; std::shared_ptr drive_; std::shared_ptr empty_drive_; void set_component_is_sleeping(Sleeper *component, bool is_sleeping); // for Drive::EventDelegate void process_event(const Track::Event &event); void advance(const Cycles cycles); // to satisfy DigitalPhaseLockedLoop::Delegate void digital_phase_locked_loop_output_bit(int value); }; } } #endif /* DiskDrive_hpp */