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154 lines
3.5 KiB
C++
154 lines
3.5 KiB
C++
//
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// OricTAP.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 10/10/2016.
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// Copyright 2016 Thomas Harte. All rights reserved.
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//
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#include "OricTAP.hpp"
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#include <sys/stat.h>
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using namespace Storage::Tape;
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OricTAP::OricTAP(const std::string &file_name) :
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file_(file_name)
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{
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// check the file signature
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if(!file_.check_signature("\x16\x16\x16\x24", 4))
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throw ErrorNotOricTAP;
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// then rewind and start again
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virtual_reset();
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}
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void OricTAP::virtual_reset() {
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file_.seek(0, SEEK_SET);
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bit_count_ = 13;
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phase_ = next_phase_ = LeadIn;
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phase_counter_ = 0;
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pulse_counter_ = 0;
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}
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Tape::Pulse OricTAP::virtual_get_next_pulse() {
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// Each byte byte is written as 13 bits: 0, eight bits of data, parity, three 1s.
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if(bit_count_ == 13) {
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if(next_phase_ != phase_) {
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phase_ = next_phase_;
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phase_counter_ = 0;
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}
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bit_count_ = 0;
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uint8_t next_byte = 0;
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switch(phase_) {
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case LeadIn:
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next_byte = phase_counter_ < 258 ? 0x16 : 0x24;
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phase_counter_++;
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if(phase_counter_ == 259) { // 256 artificial bytes plus the three in the file = 259
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while(1) {
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if(file_.get8() != 0x16) break;
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}
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next_phase_ = Header;
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}
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break;
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case Header:
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// Counts are relative to:
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// [0, 1]: "two bytes unused" (on the Oric 1)
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// 2: program type
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// 3: auto indicator
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// [4, 5]: end address of data
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// [6, 7]: start address of data
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// 8: "unused" (on the Oric 1)
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// [9...]: filename, up to NULL byte
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next_byte = file_.get8();
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if(phase_counter_ == 4) data_end_address_ = uint16_t(next_byte << 8);
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if(phase_counter_ == 5) data_end_address_ |= next_byte;
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if(phase_counter_ == 6) data_start_address_ = uint16_t(next_byte << 8);
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if(phase_counter_ == 7) data_start_address_ |= next_byte;
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if(phase_counter_ >= 9 && !next_byte) { // advance after the filename-ending NULL byte
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next_phase_ = Gap;
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}
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if(file_.eof()) {
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next_phase_ = End;
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}
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phase_counter_++;
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break;
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case Gap:
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phase_counter_++;
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if(phase_counter_ == 8) {
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next_phase_ = Data;
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}
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break;
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case Data:
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next_byte = file_.get8();
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phase_counter_++;
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if(phase_counter_ >= (data_end_address_ - data_start_address_)+1) {
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if(next_byte == 0x16) {
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next_phase_ = LeadIn;
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}
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else if(file_.eof()) {
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next_phase_ = End;
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}
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}
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break;
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case End:
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break;
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}
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uint8_t parity = next_byte;
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parity ^= (parity >> 4);
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parity ^= (parity >> 2);
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parity ^= (parity >> 1);
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current_value_ = uint16_t((uint16_t(next_byte) << 1) | ((parity&1) << 9) | (7 << 10));
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}
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// In slow mode, a 0 is 4 periods of 1200 Hz, a 1 is 8 periods at 2400 Hz.
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// In fast mode, a 1 is a single period of 2400 Hz, a 0 is a 2400 Hz pulse followed by a 1200 Hz pulse.
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// This code models fast mode.
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Tape::Pulse pulse;
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pulse.length.clock_rate = 4800;
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int next_bit;
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switch(phase_) {
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case End:
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pulse.type = Pulse::Zero;
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pulse.length.length = 4800;
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return pulse;
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case Gap:
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bit_count_ = 13;
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pulse.type = (phase_counter_&1) ? Pulse::Low : Pulse::High;
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pulse.length.length = 100;
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return pulse;
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default:
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next_bit = current_value_ & 1;
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break;
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}
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if(next_bit) {
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pulse.length.length = 1;
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} else {
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pulse.length.length = pulse_counter_ ? 2 : 1;
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}
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pulse.type = pulse_counter_ ? Pulse::High : Pulse::Low; // TODO
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pulse_counter_ ^= 1;
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if(!pulse_counter_) {
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current_value_ >>= 1;
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bit_count_++;
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}
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return pulse;
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}
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bool OricTAP::is_at_end() {
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return phase_ == End;
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}
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