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221 lines
6.1 KiB
C++
221 lines
6.1 KiB
C++
//
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// Spectrum.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 07/03/2021.
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// Copyright © 2021 Thomas Harte. All rights reserved.
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//
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#include "Spectrum.hpp"
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#include "../../../Numeric/CRC.hpp"
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#include <cstring>
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//
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// Sources used for the logic below:
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//
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// https://sinclair.wiki.zxnet.co.uk/wiki/Spectrum_tape_interface
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// http://www.cpctech.cpc-live.com/docs/manual/s968se08.pdf
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// https://www.alessandrogrussu.it/tapir/tzxform120.html
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//
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using namespace Storage::Tape::ZXSpectrum;
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Parser::Parser(MachineType machine_type) :
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machine_type_(machine_type) {}
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void Parser::process_pulse(const Storage::Tape::Tape::Pulse &pulse) {
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if(pulse.type == Storage::Tape::Tape::Pulse::Type::Zero) {
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push_wave(WaveType::Gap);
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return;
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}
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// Only pulse duration matters; the ZX Spectrum et al do not rely on polarity.
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const float t_states = pulse.length.get<float>() * 3'500'000.0f;
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switch(speed_phase_) {
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case SpeedDetectionPhase::WaitingForGap:
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// A gap is: any 'pulse' of at least 3000 t-states.
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if(t_states >= 3000.0f) {
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speed_phase_ = SpeedDetectionPhase::WaitingForPilot;
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}
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return;
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case SpeedDetectionPhase::WaitingForPilot:
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// Pilot tone might be: any pulse of less than 3000 t-states.
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if(t_states >= 3000.0f) return;
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speed_phase_ = SpeedDetectionPhase::CalibratingPilot;
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calibration_pulse_pointer_ = 0;
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[[fallthrough]];
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case SpeedDetectionPhase::CalibratingPilot: {
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// Pilot calibration: await at least 8 consecutive pulses of similar length.
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calibration_pulses_[calibration_pulse_pointer_] = t_states;
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++calibration_pulse_pointer_;
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// Decide whether it looks like this isn't actually pilot tone.
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float mean = 0.0f;
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for(size_t c = 0; c < calibration_pulse_pointer_; c++) {
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mean += calibration_pulses_[c];
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}
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mean /= float(calibration_pulse_pointer_);
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for(size_t c = 0; c < calibration_pulse_pointer_; c++) {
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if(calibration_pulses_[c] < mean * 0.9f || calibration_pulses_[c] > mean * 1.1f) {
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speed_phase_ = SpeedDetectionPhase::WaitingForGap;
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return;
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}
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}
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// Advance only if 8 are present.
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if(calibration_pulse_pointer_ == calibration_pulses_.size()) {
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speed_phase_ = SpeedDetectionPhase::Done;
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// Note at least one full cycle of pilot tone.
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push_wave(WaveType::Pilot);
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push_wave(WaveType::Pilot);
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// Configure proper parameters for the autodetection machines.
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switch(machine_type_) {
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default: break;
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case MachineType::AmstradCPC:
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// CPC: pilot tone is length of bit 1; bit 0 is half that.
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// So no more detecting formal pilot waves.
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set_cpc_one_zero_boundary(mean * 0.75f);
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break;
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case MachineType::Enterprise:
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// There's a third validation check here: is this one of the two
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// permitted recording speeds?
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if(!(
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(mean >= 742.0f*0.9f && mean <= 742.0f*1.0f/0.9f) ||
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(mean >= 1750.0f*0.9f && mean <= 1750.0f*1.0f/0.9f)
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)) {
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speed_phase_ = SpeedDetectionPhase::WaitingForGap;
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return;
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}
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// TODO: not yet supported. As below, needs to deal with sync != zero.
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assert(false);
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break;
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case MachineType::SAMCoupe: {
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// TODO: not yet supported. Specifically because I don't think my sync = zero
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// assumption even vaguely works here?
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assert(false);
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} break;
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}
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}
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} return;
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default:
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break;
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}
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// Too long or too short => gap.
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if(t_states >= too_long_ || t_states <= too_short_) {
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push_wave(WaveType::Gap);
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return;
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}
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// Potentially announce pilot.
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if(t_states >= is_pilot_) {
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push_wave(WaveType::Pilot);
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return;
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}
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// Otherwise it's either a one or a zero.
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push_wave(t_states > is_one_ ? WaveType::One : WaveType::Zero);
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}
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void Parser::set_cpc_read_speed(uint8_t speed) {
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// This may not be exactly right; I wish there were more science here but
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// instead it's empirical based on tape speed versus value stored plus
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// a guess as to where the CPC puts the dividing line.
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set_cpc_one_zero_boundary(float(speed) * 14.35f);
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}
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void Parser::set_cpc_one_zero_boundary(float boundary) {
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is_one_ = boundary;
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too_long_ = is_one_ * 16.0f / 9.0f;
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too_short_ = is_one_ * 0.5f;
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is_pilot_ = too_long_;
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}
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void Parser::inspect_waves(const std::vector<Storage::Tape::ZXSpectrum::WaveType> &waves) {
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switch(waves[0]) {
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// Gap and Pilot map directly.
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case WaveType::Gap: push_symbol(SymbolType::Gap, 1); break;
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case WaveType::Pilot: push_symbol(SymbolType::Pilot, 1); break;
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// Both one and zero waves should come in pairs.
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case WaveType::One:
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case WaveType::Zero:
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if(waves.size() < 2) return;
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if(waves[1] == waves[0]) {
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push_symbol(waves[0] == WaveType::One ? SymbolType::One : SymbolType::Zero, 2);
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} else {
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push_symbol(SymbolType::Gap, 1);
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}
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break;
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}
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}
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std::optional<Block> Parser::find_block(const std::shared_ptr<Storage::Tape::Tape> &tape) {
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// Decide whether to kick off a speed detection phase.
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if(should_detect_speed()) {
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speed_phase_ = SpeedDetectionPhase::WaitingForGap;
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}
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// Find pilot tone.
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proceed_to_symbol(tape, SymbolType::Pilot);
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if(is_at_end(tape)) return std::nullopt;
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// Find sync bit.
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proceed_to_symbol(tape, SymbolType::Zero);
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if(is_at_end(tape)) return std::nullopt;
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// Read marker byte.
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const auto type = get_byte(tape);
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if(!type) return std::nullopt;
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// That succeeded.
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Block block = {
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.type = *type
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};
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return block;
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}
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std::vector<uint8_t> Parser::get_block_body(const std::shared_ptr<Storage::Tape::Tape> &tape) {
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std::vector<uint8_t> result;
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while(true) {
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const auto next_byte = get_byte(tape);
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if(!next_byte) break;
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result.push_back(*next_byte);
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}
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return result;
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}
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void Parser::seed_checksum(uint8_t value) {
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checksum_ = value;
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}
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std::optional<uint8_t> Parser::get_byte(const std::shared_ptr<Storage::Tape::Tape> &tape) {
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uint8_t result = 0;
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for(int c = 0; c < 8; c++) {
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const SymbolType symbol = get_next_symbol(tape);
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if(symbol != SymbolType::One && symbol != SymbolType::Zero) return std::nullopt;
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result = uint8_t((result << 1) | (symbol == SymbolType::One));
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}
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if(should_flip_bytes()) {
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result = CRC::reverse_byte(result);
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}
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checksum_ ^= result;
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return result;
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}
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