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384 lines
12 KiB
C++
384 lines
12 KiB
C++
//
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// MFM.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 18/09/2016.
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// Copyright 2016 Thomas Harte. All rights reserved.
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//
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#include "Encoder.hpp"
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#include "Constants.hpp"
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#include "../../Track/PCMTrack.hpp"
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#include "../../../../Numeric/CRC.hpp"
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#include <cassert>
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#include <set>
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using namespace Storage::Encodings::MFM;
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enum class SurfaceItem {
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Mark,
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Data
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};
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class MFMEncoder: public Encoder {
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public:
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MFMEncoder(std::vector<bool> &target, std::vector<bool> *fuzzy_target = nullptr) : Encoder(target, fuzzy_target) {}
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virtual ~MFMEncoder() {}
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void add_byte(uint8_t input, uint8_t fuzzy_mask = 0) final {
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crc_generator_.add(input);
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const uint16_t spread_value =
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static_cast<uint16_t>(
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((input & 0x01) << 0) |
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((input & 0x02) << 1) |
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((input & 0x04) << 2) |
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((input & 0x08) << 3) |
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((input & 0x10) << 4) |
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((input & 0x20) << 5) |
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((input & 0x40) << 6) |
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((input & 0x80) << 7)
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);
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const uint16_t or_bits = static_cast<uint16_t>((spread_value << 1) | (spread_value >> 1) | (last_output_ << 15));
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const uint16_t output = spread_value | ((~or_bits) & 0xaaaa);
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const uint16_t spread_mask =
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static_cast<uint16_t>(
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((fuzzy_mask & 0x01) << 0) |
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((fuzzy_mask & 0x02) << 1) |
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((fuzzy_mask & 0x04) << 2) |
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((fuzzy_mask & 0x08) << 3) |
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((fuzzy_mask & 0x10) << 4) |
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((fuzzy_mask & 0x20) << 5) |
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((fuzzy_mask & 0x40) << 6) |
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((fuzzy_mask & 0x80) << 7)
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);
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output_short(output, spread_mask);
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}
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void add_index_address_mark() final {
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for(int c = 0; c < 3; c++) output_short(MFMIndexSync);
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add_byte(IndexAddressByte);
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}
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void add_ID_address_mark() final {
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output_sync();
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add_byte(IDAddressByte);
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}
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void add_data_address_mark() final {
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output_sync();
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add_byte(DataAddressByte);
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}
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void add_deleted_data_address_mark() final {
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output_sync();
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add_byte(DeletedDataAddressByte);
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}
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size_t item_size(SurfaceItem item) {
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switch(item) {
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case SurfaceItem::Mark: return 8; // Three syncs plus the mark type.
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case SurfaceItem::Data: return 2; // Just a single encoded byte.
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default: assert(false);
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}
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return 0; // Should be impossible to reach in debug builds.
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}
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private:
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uint16_t last_output_;
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void output_short(uint16_t value, uint16_t fuzzy_mask = 0) final {
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last_output_ = value;
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Encoder::output_short(value, fuzzy_mask);
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}
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void output_sync() {
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for(int c = 0; c < 3; c++) output_short(MFMSync);
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crc_generator_.set_value(MFMPostSyncCRCValue);
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}
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};
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class FMEncoder: public Encoder {
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// encodes each 16-bit part as clock, data, clock, data [...]
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public:
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FMEncoder(std::vector<bool> &target, std::vector<bool> *fuzzy_target = nullptr) : Encoder(target, fuzzy_target) {}
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void add_byte(uint8_t input, uint8_t fuzzy_mask = 0) final {
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crc_generator_.add(input);
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output_short(
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static_cast<uint16_t>(
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((input & 0x01) << 0) |
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((input & 0x02) << 1) |
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((input & 0x04) << 2) |
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((input & 0x08) << 3) |
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((input & 0x10) << 4) |
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((input & 0x20) << 5) |
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((input & 0x40) << 6) |
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((input & 0x80) << 7) |
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0xaaaa
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),
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static_cast<uint16_t>(
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((fuzzy_mask & 0x01) << 0) |
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((fuzzy_mask & 0x02) << 1) |
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((fuzzy_mask & 0x04) << 2) |
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((fuzzy_mask & 0x08) << 3) |
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((fuzzy_mask & 0x10) << 4) |
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((fuzzy_mask & 0x20) << 5) |
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((fuzzy_mask & 0x40) << 6) |
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((fuzzy_mask & 0x80) << 7)
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)
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);
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}
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void add_index_address_mark() final {
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crc_generator_.reset();
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crc_generator_.add(IndexAddressByte);
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output_short(FMIndexAddressMark);
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}
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void add_ID_address_mark() final {
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crc_generator_.reset();
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crc_generator_.add(IDAddressByte);
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output_short(FMIDAddressMark);
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}
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void add_data_address_mark() final {
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crc_generator_.reset();
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crc_generator_.add(DataAddressByte);
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output_short(FMDataAddressMark);
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}
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void add_deleted_data_address_mark() final {
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crc_generator_.reset();
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crc_generator_.add(DeletedDataAddressByte);
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output_short(FMDeletedDataAddressMark);
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}
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size_t item_size(SurfaceItem item) {
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// Marks are just slightly-invalid bytes, so everything is the same length.
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return 2;
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}
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};
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template<class T> std::shared_ptr<Storage::Disk::Track>
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GetTrackWithSectors(
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const std::vector<const Sector *> §ors,
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std::size_t post_index_address_mark_bytes, uint8_t post_index_address_mark_value,
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std::size_t pre_address_mark_bytes,
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std::size_t post_address_mark_bytes, uint8_t post_address_mark_value,
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std::size_t pre_data_mark_bytes,
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std::size_t post_data_bytes, uint8_t post_data_value,
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std::size_t expected_track_bytes) {
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Storage::Disk::PCMSegment segment;
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segment.data.reserve(expected_track_bytes * 8);
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T shifter(segment.data);
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// Make a pre-estimate of output size, in case any of the idealised gaps
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// provided need to be shortened.
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const size_t data_size = shifter.item_size(SurfaceItem::Data);
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const size_t mark_size = shifter.item_size(SurfaceItem::Mark);
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const size_t max_size = (expected_track_bytes + (expected_track_bytes / 10)) * 8;
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size_t total_sector_bytes = 0;
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for(const auto sector : sectors) {
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total_sector_bytes += size_t(128 << sector->size) + 2;
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}
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// Seek appropriate gap sizes, if the defaults don't allow all data to fit.
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while(true) {
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const size_t size =
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mark_size +
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post_index_address_mark_bytes * data_size +
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total_sector_bytes * data_size +
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sectors.size() * (
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(pre_address_mark_bytes + 6 + post_address_mark_bytes + pre_data_mark_bytes + post_data_bytes) * data_size + 2 * mark_size
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);
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// If this track already fits, do nothing.
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if(size*8 < max_size) break;
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// If all gaps are already zero, do nothing.
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if(!post_index_address_mark_bytes && !pre_address_mark_bytes && !post_address_mark_bytes && !pre_data_mark_bytes && !post_data_bytes)
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break;
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// Very simple solution: try halving all gaps.
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post_index_address_mark_bytes >>= 1;
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pre_address_mark_bytes >>= 1;
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post_address_mark_bytes >>= 1;
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pre_data_mark_bytes >>= 1;
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post_data_bytes >>= 1;
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}
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// Output the index mark.
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shifter.add_index_address_mark();
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// Add the post-index mark.
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for(std::size_t c = 0; c < post_index_address_mark_bytes; c++) shifter.add_byte(post_index_address_mark_value);
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// Add sectors.
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for(const Sector *sector : sectors) {
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// Gap.
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for(std::size_t c = 0; c < pre_address_mark_bytes; c++) shifter.add_byte(0x00);
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// Sector header.
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shifter.add_ID_address_mark();
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shifter.add_byte(sector->address.track);
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shifter.add_byte(sector->address.side);
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shifter.add_byte(sector->address.sector);
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shifter.add_byte(sector->size);
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shifter.add_crc(sector->has_header_crc_error);
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// Gap.
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for(std::size_t c = 0; c < post_address_mark_bytes; c++) shifter.add_byte(post_address_mark_value);
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for(std::size_t c = 0; c < pre_data_mark_bytes; c++) shifter.add_byte(0x00);
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// Data, if attached.
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if(!sector->samples.empty()) {
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if(sector->is_deleted)
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shifter.add_deleted_data_address_mark();
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else
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shifter.add_data_address_mark();
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std::size_t c = 0;
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std::size_t declared_length = static_cast<std::size_t>(128 << sector->size);
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if(sector->samples.size() > 1) {
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// For each byte, mark as fuzzy any bits that differ. Which isn't exactly the
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// same thing as obeying the multiple samples, as it discards the implied
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// probabilities of different values.
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for(c = 0; c < sector->samples[0].size() && c < declared_length; c++) {
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auto sample_iterator = sector->samples.begin();
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uint8_t value = (*sample_iterator)[c], fuzzy_mask = 0;
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++sample_iterator;
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while(sample_iterator != sector->samples.end()) {
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// Mark as fuzzy any bits that differ here from the
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// canonical value, and zero them out in the original.
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// That might cause them to retrigger, but who cares?
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fuzzy_mask |= value ^ (*sample_iterator)[c];
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value &= ~fuzzy_mask;
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++sample_iterator;
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}
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shifter.add_byte(sector->samples[0][c], fuzzy_mask);
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}
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} else {
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for(c = 0; c < sector->samples[0].size() && c < declared_length; c++) {
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shifter.add_byte(sector->samples[0][c]);
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}
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}
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for(; c < declared_length; c++) {
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shifter.add_byte(0x00);
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}
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shifter.add_crc(sector->has_data_crc_error);
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}
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// Gap.
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for(std::size_t c = 0; c < post_data_bytes; c++) shifter.add_byte(post_data_value);
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}
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while(segment.data.size() < expected_track_bytes*8) shifter.add_byte(0x00);
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// Allow the amount of data written to be up to 10% more than the expected size. Which is generous.
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if(segment.data.size() > max_size) segment.data.resize(max_size);
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return std::make_shared<Storage::Disk::PCMTrack>(std::move(segment));
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}
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Encoder::Encoder(std::vector<bool> &target, std::vector<bool> *fuzzy_target) :
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target_(&target), fuzzy_target_(fuzzy_target) {}
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void Encoder::reset_target(std::vector<bool> &target, std::vector<bool> *fuzzy_target) {
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target_ = ⌖
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fuzzy_target_ = fuzzy_target;
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}
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void Encoder::output_short(uint16_t value, uint16_t fuzzy_mask) {
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const bool write_fuzzy_bits = fuzzy_mask;
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if(write_fuzzy_bits) {
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assert(fuzzy_target_);
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// Zero-fill the bits to date, to cover any shorts written without fuzzy bits,
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// and make sure the value has a 0 anywhere it should be fuzzy.
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fuzzy_target_->resize(target_->size());
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value &= ~fuzzy_mask;
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}
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uint16_t mask = 0x8000;
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while(mask) {
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target_->push_back(value & mask);
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if(write_fuzzy_bits) fuzzy_target_->push_back(fuzzy_mask & mask);
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mask >>= 1;
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}
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}
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void Encoder::add_crc(bool incorrectly) {
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const uint16_t crc_value = crc_generator_.get_value();
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add_byte(crc_value >> 8);
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add_byte((crc_value & 0xff) ^ (incorrectly ? 1 : 0));
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}
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const std::size_t Storage::Encodings::MFM::DefaultSectorGapLength = std::numeric_limits<std::size_t>::max();
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static std::vector<const Sector *> sector_pointers(const std::vector<Sector> §ors) {
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std::vector<const Sector *> pointers;
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for(const Sector §or: sectors) {
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pointers.push_back(§or);
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}
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return pointers;
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}
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std::shared_ptr<Storage::Disk::Track> Storage::Encodings::MFM::GetFMTrackWithSectors(const std::vector<Sector> §ors, std::size_t sector_gap_length, uint8_t sector_gap_filler_byte) {
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return GetTrackWithSectors<FMEncoder>(
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sector_pointers(sectors),
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26, 0xff,
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6,
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11, 0xff,
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6,
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(sector_gap_length != DefaultSectorGapLength) ? sector_gap_length : 27, 0xff,
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6250); // i.e. 250kbps (including clocks) * 60 = 15000kpm, at 300 rpm => 50 kbits/rotation => 6250 bytes/rotation
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}
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std::shared_ptr<Storage::Disk::Track> Storage::Encodings::MFM::GetFMTrackWithSectors(const std::vector<const Sector *> §ors, std::size_t sector_gap_length, uint8_t sector_gap_filler_byte) {
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return GetTrackWithSectors<FMEncoder>(
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sectors,
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26, 0xff,
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6,
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11, 0xff,
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6,
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(sector_gap_length != DefaultSectorGapLength) ? sector_gap_length : 27, 0xff,
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6250); // i.e. 250kbps (including clocks) * 60 = 15000kpm, at 300 rpm => 50 kbits/rotation => 6250 bytes/rotation
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}
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std::shared_ptr<Storage::Disk::Track> Storage::Encodings::MFM::GetMFMTrackWithSectors(const std::vector<Sector> §ors, std::size_t sector_gap_length, uint8_t sector_gap_filler_byte) {
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return GetTrackWithSectors<MFMEncoder>(
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sector_pointers(sectors),
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50, 0x4e,
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12,
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22, 0x4e,
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12,
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(sector_gap_length != DefaultSectorGapLength) ? sector_gap_length : 54, 0xff,
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12500); // unintelligently: double the single-density bytes/rotation (or: 500kbps @ 300 rpm)
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}
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std::shared_ptr<Storage::Disk::Track> Storage::Encodings::MFM::GetMFMTrackWithSectors(const std::vector<const Sector *> §ors, std::size_t sector_gap_length, uint8_t sector_gap_filler_byte) {
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return GetTrackWithSectors<MFMEncoder>(
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sectors,
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50, 0x4e,
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12,
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22, 0x4e,
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12,
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(sector_gap_length != DefaultSectorGapLength) ? sector_gap_length : 54, 0xff,
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12500); // unintelligently: double the single-density bytes/rotation (or: 500kbps @ 300 rpm)
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}
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std::unique_ptr<Encoder> Storage::Encodings::MFM::GetMFMEncoder(std::vector<bool> &target, std::vector<bool> *fuzzy_target) {
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return std::make_unique<MFMEncoder>(target, fuzzy_target);
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}
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std::unique_ptr<Encoder> Storage::Encodings::MFM::GetFMEncoder(std::vector<bool> &target, std::vector<bool> *fuzzy_target) {
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return std::make_unique<FMEncoder>(target, fuzzy_target);
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}
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