// // MFM.hpp // Clock Signal // // Created by Thomas Harte on 18/09/2016. // Copyright 2016 Thomas Harte. All rights reserved. // #ifndef Storage_Disk_Encodings_MFM_hpp #define Storage_Disk_Encodings_MFM_hpp #include #include #include #include "Sector.hpp" #include "../../Track/Track.hpp" #include "../../../../Numeric/CRC.hpp" namespace Storage::Encodings::MFM { extern const std::size_t DefaultSectorGapLength; /*! Converts a vector of sectors into a properly-encoded MFM track. @param sectors The sectors to write. @param sector_gap_length If specified, sets the distance in whole bytes between each ID and its data. @param sector_gap_filler_byte If specified, sets the value (unencoded) that is used to populate the gap between each ID and its data. */ std::shared_ptr GetMFMTrackWithSectors(const std::vector §ors, std::size_t sector_gap_length = DefaultSectorGapLength, uint8_t sector_gap_filler_byte = 0x4e); std::shared_ptr GetMFMTrackWithSectors(const std::vector §ors, std::size_t sector_gap_length = DefaultSectorGapLength, uint8_t sector_gap_filler_byte = 0x4e); /*! Converts a vector of sectors into a properly-encoded FM track. @param sectors The sectors to write. @param sector_gap_length If specified, sets the distance in whole bytes between each ID and its data. @param sector_gap_filler_byte If specified, sets the value (unencoded) that is used to populate the gap between each ID and its data. */ std::shared_ptr GetFMTrackWithSectors(const std::vector §ors, std::size_t sector_gap_length = DefaultSectorGapLength, uint8_t sector_gap_filler_byte = 0xff); std::shared_ptr GetFMTrackWithSectors(const std::vector §ors, std::size_t sector_gap_length = DefaultSectorGapLength, uint8_t sector_gap_filler_byte = 0xff); class Encoder { public: Encoder(std::vector &target, std::vector *fuzzy_target); virtual ~Encoder() {} virtual void reset_target(std::vector &target, std::vector *fuzzy_target = nullptr); virtual void add_byte(uint8_t input, uint8_t fuzzy_mask = 0) = 0; virtual void add_index_address_mark() = 0; virtual void add_ID_address_mark() = 0; virtual void add_data_address_mark() = 0; virtual void add_deleted_data_address_mark() = 0; virtual void output_short(uint16_t value, uint16_t fuzzy_mask = 0); template void add_bytes(IteratorT begin, IteratorT end) { while(begin != end) { add_byte(*begin); ++begin; } } template void add_bytes(const ContainerT &container) { write(std::begin(container), std::end(container)); } /// Outputs the CRC for all data since the last address mask; if @c incorrectly is @c true then outputs an incorrect CRC. void add_crc(bool incorrectly); protected: CRC::CCITT crc_generator_; private: std::vector *target_ = nullptr; std::vector *fuzzy_target_ = nullptr; }; std::unique_ptr GetMFMEncoder(std::vector &target, std::vector *fuzzy_target = nullptr); std::unique_ptr GetFMEncoder(std::vector &target, std::vector *fuzzy_target = nullptr); } #endif /* MFM_hpp */