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CLK/Storage/Tape/Parsers/Spectrum.hpp
Thomas Harte a32a2f36be Advances to correctly reading bytes.
Something is still amiss though. Maybe I'm supposed to update the checksum?
2021-03-12 19:15:35 -05:00

139 lines
3.5 KiB
C++

//
// Spectrum.hpp
// Clock Signal
//
// Created by Thomas Harte on 07/03/2021.
// Copyright © 2021 Thomas Harte. All rights reserved.
//
#ifndef Storage_Tape_Parsers_Spectrum_hpp
#define Storage_Tape_Parsers_Spectrum_hpp
#include "TapeParser.hpp"
#include <array>
#include <optional>
#include <vector>
namespace Storage {
namespace Tape {
namespace ZXSpectrum {
enum class WaveType {
// All references to 't-states' below are cycles relative to the
// ZX Spectrum's 3.5Mhz processor.
Pilot, // Nominally 2168 t-states.
Zero, // 855 t-states.
One, // 1710 t-states.
Gap,
};
// Formally, there are two other types of wave:
//
// Sync1, // 667 t-states.
// Sync2, // 735 t-states.
//
// Non-Spectrum machines often just output a plain zero symbol instead of
// a two-step sync; this parser treats anything close enough to a zero
// as a sync.
enum class SymbolType {
Zero,
One,
Pilot,
Gap,
};
/// A block is anything that follows a period of pilot tone; on a Spectrum that might be a
/// file header or the file contents; on a CPC it might be a file header or a single chunk providing
/// partial file contents. The Enterprise seems broadly to follow the Spectrum but the internal
/// byte structure differs.
struct Block {
uint8_t type = 0;
};
class Parser: public Storage::Tape::PulseClassificationParser<WaveType, SymbolType> {
public:
enum class MachineType {
ZXSpectrum,
Enterprise,
SAMCoupe,
AmstradCPC
};
Parser(MachineType);
/*!
Calibrates the expected data speed using a value in the CPC's native tape-speed measurement scale.
*/
void set_cpc_read_speed(uint8_t);
/*!
Finds the next block from the tape, if any.
Following this call the tape will be positioned immediately after the byte that indicated the block type —
in Spectrum-world this seems to be called the flag byte. This call can therefore be followed up with one
of the get_ methods.
*/
std::optional<Block> find_block(const std::shared_ptr<Storage::Tape::Tape> &tape);
/*!
Reads the contents of the rest of this block, until the next gap.
*/
std::vector<uint8_t> get_block_body(const std::shared_ptr<Storage::Tape::Tape> &tape);
/*!
Reads a single byte from the tape, if there is one left, updating the internal checksum.
The checksum is computed as an exclusive OR of all bytes read.
*/
std::optional<uint8_t> get_byte(const std::shared_ptr<Storage::Tape::Tape> &tape);
/*!
Seeds the internal checksum.
*/
void seed_checksum(uint8_t value = 0x00);
/*!
Push a pulse; primarily provided for Storage::Tape::PulseClassificationParser but also potentially useful
for picking up fast loading from an ongoing tape.
*/
void process_pulse(const Storage::Tape::Tape::Pulse &pulse) override;
private:
const MachineType machine_type_;
constexpr bool should_flip_bytes() {
return machine_type_ == MachineType::Enterprise;
}
constexpr bool should_detect_speed() {
return machine_type_ != MachineType::ZXSpectrum;
}
void inspect_waves(const std::vector<WaveType> &waves) override;
uint8_t checksum_ = 0;
enum class SpeedDetectionPhase {
WaitingForGap,
WaitingForPilot,
CalibratingPilot,
Done
} speed_phase_ = SpeedDetectionPhase::Done;
float too_long_ = 2600.0f;
float too_short_ = 600.0f;
float is_pilot_ = 1939.0f;
float is_one_ = 1282.0f;
std::array<float, 8> calibration_pulses_;
size_t calibration_pulse_pointer_ = 0;
void set_cpc_one_zero_boundary(float);
};
}
}
}
#endif /* Spectrum_hpp */