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CLK/Storage/Tape/Formats/TapeUEF.cpp

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//
// TapeUEF.cpp
// Clock Signal
//
// Created by Thomas Harte on 18/01/2016.
// Copyright 2016 Thomas Harte. All rights reserved.
//
#include "TapeUEF.hpp"
#include <cstring>
#include <cstdio>
#include <cstdlib>
#include <cmath>
#include "../../../Outputs/Log.hpp"
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namespace {
Log::Logger<Log::Source::TapeUEF> logger;
}
// MARK: - ZLib extensions
static float gzgetfloat(gzFile file) {
uint8_t bytes[4];
gzread(file, bytes, 4);
/* assume a four byte array named Float exists, where Float[0]
was the first byte read from the UEF, Float[1] the second, etc */
/* decode mantissa */
int mantissa;
mantissa = bytes[0] | (bytes[1] << 8) | ((bytes[2]&0x7f)|0x80) << 16;
float result = float(mantissa);
result = float(ldexp(result, -23));
/* decode exponent */
int exponent;
exponent = ((bytes[2]&0x80) >> 7) | (bytes[3]&0x7f) << 1;
exponent -= 127;
result = float(ldexp(result, exponent));
/* flip sign if necessary */
if(bytes[3]&0x80)
result = -result;
return result;
}
static uint8_t gzget8(gzFile file) {
// This is a workaround for gzgetc, which seems to be broken in ZLib 1.2.8.
uint8_t result;
gzread(file, &result, 1);
return result;
}
static int gzget16(gzFile file) {
uint8_t bytes[2];
gzread(file, bytes, 2);
return bytes[0] | (bytes[1] << 8);
}
static int gzget24(gzFile file) {
uint8_t bytes[3];
gzread(file, bytes, 3);
return bytes[0] | (bytes[1] << 8) | (bytes[2] << 16);
}
static int gzget32(gzFile file) {
uint8_t bytes[4];
gzread(file, bytes, 4);
return bytes[0] | (bytes[1] << 8) | (bytes[2] << 16) | (bytes[3] << 24);
}
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using namespace Storage::Tape;
UEF::UEF(const std::string &file_name) {
file_ = gzopen(file_name.c_str(), "rb");
char identifier[10];
int bytes_read = gzread(file_, identifier, 10);
if(bytes_read < 10 || std::strcmp(identifier, "UEF File!")) {
throw ErrorNotUEF;
}
uint8_t version[2];
gzread(file_, version, 2);
if(version[1] > 0 || version[0] > 10) {
throw ErrorNotUEF;
}
set_platform_type();
}
UEF::~UEF() {
gzclose(file_);
}
// MARK: - Public methods
void UEF::virtual_reset() {
gzseek(file_, 12, SEEK_SET);
set_is_at_end(false);
clear();
}
// MARK: - Chunk navigator
bool UEF::get_next_chunk(UEF::Chunk &result) {
const uint16_t chunk_id = uint16_t(gzget16(file_));
const uint32_t chunk_length = uint32_t(gzget32(file_));
const z_off_t start_of_next_chunk = gztell(file_) + chunk_length;
if(gzeof(file_)) {
return false;
}
result.id = chunk_id;
result.length = chunk_length;
result.start_of_next_chunk = start_of_next_chunk;
return true;
}
void UEF::get_next_pulses() {
while(empty()) {
// read chunk details
Chunk next_chunk;
if(!get_next_chunk(next_chunk)) {
set_is_at_end(true);
return;
}
switch(next_chunk.id) {
case 0x0100: queue_implicit_bit_pattern(next_chunk.length); break;
case 0x0102: queue_explicit_bit_pattern(next_chunk.length); break;
case 0x0112: queue_integer_gap(); break;
case 0x0116: queue_floating_point_gap(); break;
case 0x0110: queue_carrier_tone(); break;
case 0x0111: queue_carrier_tone_with_dummy(); break;
case 0x0114: queue_security_cycles(); break;
case 0x0104: queue_defined_data(next_chunk.length); break;
// change of base rate
case 0x0113: {
// TODO: something smarter than just converting this to an int
const float new_time_base = gzgetfloat(file_);
time_base_ = unsigned(roundf(new_time_base));
}
break;
case 0x0117: {
const int baud_rate = gzget16(file_);
is_300_baud_ = (baud_rate == 300);
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}
break;
default:
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logger.info().append("Skipping chunk of type %04x", next_chunk.id);
break;
}
gzseek(file_, next_chunk.start_of_next_chunk, SEEK_SET);
}
}
// MARK: - Chunk parsers
void UEF::queue_implicit_bit_pattern(uint32_t length) {
while(length--) {
queue_implicit_byte(gzget8(file_));
}
}
void UEF::queue_explicit_bit_pattern(uint32_t length) {
const std::size_t length_in_bits = (length << 3) - size_t(gzget8(file_));
uint8_t current_byte = 0;
for(std::size_t bit = 0; bit < length_in_bits; bit++) {
if(!(bit&7)) current_byte = gzget8(file_);
queue_bit(current_byte&1);
current_byte >>= 1;
}
}
void UEF::queue_integer_gap() {
Time duration;
duration.length = unsigned(gzget16(file_));
duration.clock_rate = time_base_;
emplace_back(Pulse::Zero, duration);
}
void UEF::queue_floating_point_gap() {
const float length = gzgetfloat(file_);
Time duration;
duration.length = unsigned(length * 4000000);
duration.clock_rate = 4000000;
emplace_back(Pulse::Zero, duration);
}
void UEF::queue_carrier_tone() {
unsigned int number_of_cycles = unsigned(gzget16(file_));
while(number_of_cycles--) queue_bit(1);
}
void UEF::queue_carrier_tone_with_dummy() {
unsigned int pre_cycles = unsigned(gzget16(file_));
unsigned int post_cycles = unsigned(gzget16(file_));
while(pre_cycles--) queue_bit(1);
queue_implicit_byte(0xaa);
while(post_cycles--) queue_bit(1);
}
void UEF::queue_security_cycles() {
int number_of_cycles = gzget24(file_);
bool first_is_pulse = gzget8(file_) == 'P';
bool last_is_pulse = gzget8(file_) == 'P';
uint8_t current_byte = 0;
for(int cycle = 0; cycle < number_of_cycles; cycle++) {
if(!(cycle&7)) current_byte = gzget8(file_);
int bit = (current_byte >> 7);
current_byte <<= 1;
Time duration;
duration.length = bit ? 1 : 2;
duration.clock_rate = time_base_ * 4;
if(!cycle && first_is_pulse) {
emplace_back(Pulse::High, duration);
} else if(cycle == number_of_cycles-1 && last_is_pulse) {
emplace_back(Pulse::Low, duration);
} else {
emplace_back(Pulse::Low, duration);
emplace_back(Pulse::High, duration);
}
}
}
void UEF::queue_defined_data(uint32_t length) {
if(length < 3) return;
const int bits_per_packet = gzget8(file_);
const char parity_type = char(gzget8(file_));
int number_of_stop_bits = gzget8(file_);
const bool has_extra_stop_wave = (number_of_stop_bits < 0);
number_of_stop_bits = abs(number_of_stop_bits);
length -= 3;
while(length--) {
uint8_t byte = gzget8(file_);
uint8_t parity_value = byte;
parity_value ^= (parity_value >> 4);
parity_value ^= (parity_value >> 2);
parity_value ^= (parity_value >> 1);
queue_bit(0);
int c = bits_per_packet;
while(c--) {
queue_bit(byte&1);
byte >>= 1;
}
switch(parity_type) {
default: break;
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case 'E': queue_bit(parity_value&1); break;
case 'O': queue_bit((parity_value&1) ^ 1); break;
}
int stop_bits = number_of_stop_bits;
while(stop_bits--) queue_bit(1);
if(has_extra_stop_wave) {
Time duration;
duration.length = 1;
duration.clock_rate = time_base_ * 4;
emplace_back(Pulse::Low, duration);
emplace_back(Pulse::High, duration);
}
}
}
// MARK: - Queuing helpers
void UEF::queue_implicit_byte(uint8_t byte) {
queue_bit(0);
int c = 8;
while(c--) {
queue_bit(byte&1);
byte >>= 1;
}
queue_bit(1);
}
void UEF::queue_bit(int bit) {
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int number_of_cycles;
Time duration;
duration.clock_rate = time_base_ * 4;
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if(bit) {
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// encode high-frequency waves
duration.length = 1;
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number_of_cycles = 2;
} else {
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// encode low-frequency waves
duration.length = 2;
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number_of_cycles = 1;
}
if(is_300_baud_) number_of_cycles *= 4;
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while(number_of_cycles--) {
emplace_back(Pulse::Low, duration);
emplace_back(Pulse::High, duration);
}
}
// MARK: - TypeDistinguisher
TargetPlatform::Type UEF::target_platform_type() {
return platform_type_;
}
void UEF::set_platform_type() {
// If a chunk of type 0005 exists anywhere in the UEF then the UEF specifies its target machine.
// So check and, if so, update the list of machines for which this file thinks it is suitable.
Chunk next_chunk;
while(get_next_chunk(next_chunk)) {
if(next_chunk.id == 0x0005) {
uint8_t target = gzget8(file_);
switch(target >> 4) {
case 0: platform_type_ = TargetPlatform::BBCModelA; break;
case 1: platform_type_ = TargetPlatform::AcornElectron; break;
case 2: platform_type_ = TargetPlatform::BBCModelB; break;
case 3: platform_type_ = TargetPlatform::BBCMaster; break;
case 4: platform_type_ = TargetPlatform::AcornAtom; break;
default: break;
}
}
gzseek(file_, next_chunk.start_of_next_chunk, SEEK_SET);
}
reset();
}