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186 lines
5.9 KiB
C++
186 lines
5.9 KiB
C++
//
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// MSX.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 26/12/2017.
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// Copyright 2017 Thomas Harte. All rights reserved.
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//
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#include "MSX.hpp"
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#include <algorithm>
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using namespace Storage::Tape::MSX;
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std::unique_ptr<Parser::FileSpeed> Parser::find_header(Storage::Tape::BinaryTapePlayer &tape_player) {
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if(!tape_player.get_motor_control()) {
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return nullptr;
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}
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/*
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"When 1,111 cycles have been found with less than 35 microseconds
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variation in their lengths a header has been located."
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*/
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bool last_level = tape_player.get_input();
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float low = std::numeric_limits<float>::max();
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float high = std::numeric_limits<float>::min();
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int samples = 0;
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while(!tape_player.get_tape()->is_at_end()) {
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float next_length = 0.0f;
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do {
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next_length += float(tape_player.get_cycles_until_next_event()) / float(tape_player.get_input_clock_rate());
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tape_player.run_for_input_pulse();
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} while(last_level == tape_player.get_input());
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last_level = tape_player.get_input();
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low = std::min(low, next_length);
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high = std::max(high, next_length);
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samples++;
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if(high - low > 0.000035f) {
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low = std::numeric_limits<float>::max();
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high = std::numeric_limits<float>::min();
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samples = 0;
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}
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if(samples == 1111*2) break; // Cycles are read, not half-cycles.
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}
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if(tape_player.get_tape()->is_at_end()) return nullptr;
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/*
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"The next 256 cycles are then read (1B34H) and averaged to determine the cassette HI cycle length."
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*/
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float total_length = 0.0f;
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samples = 512;
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while(!tape_player.get_tape()->is_at_end()) {
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total_length += float(tape_player.get_cycles_until_next_event()) / float(tape_player.get_input_clock_rate());
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if(tape_player.get_input() != last_level) {
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samples--;
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if(!samples) break;
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last_level = tape_player.get_input();
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}
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tape_player.run_for_input_pulse();
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}
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if(tape_player.get_tape()->is_at_end()) return nullptr;
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/*
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This figure is multiplied by 1.5 and placed in LOWLIM where it defines the minimum acceptable length
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of a 0 start bit. The HI cycle length is placed in WINWID and will be used to discriminate
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between LO and HI cycles."
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*/
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total_length = total_length / 256.0f; // To get the average, in microseconds.
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// To convert to the loop count format used by the MSX BIOS.
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uint8_t int_result = uint8_t(total_length / (0.00001145f * 0.75f));
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auto result = std::make_unique<FileSpeed>();
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result->minimum_start_bit_duration = int_result;
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result->low_high_disrimination_duration = (int_result * 3) >> 2;
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return result;
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}
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/*!
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Attempts to read the next byte from the cassette, with data encoded
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at the rate as defined by @c speed.
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Attempts exactly to duplicate the MSX's TAPIN function.
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@returns A value in the range 0-255 if a byte is found before the end of the tape;
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-1 otherwise.
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*/
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int Parser::get_byte(const FileSpeed &speed, Storage::Tape::BinaryTapePlayer &tape_player) {
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if(!tape_player.get_motor_control()) {
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return -1;
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}
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/*
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"The cassette is first read continuously until a start bit is found.
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This is done by locating a negative transition, measuring the following
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cycle length (1B1FH) and comparing this to see if it is greater than LOWLIM."
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... but I don't buy that, as it makes the process overly dependent on phase.
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So I'm going to look for the next two consecutive pulses that are each big
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enough to be half of a zero.
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*/
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const float minimum_start_bit_duration = float(speed.minimum_start_bit_duration) * 0.00001145f * 0.5f;
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int input = 0;
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while(!tape_player.get_tape()->is_at_end()) {
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// Find next transition.
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bool level = tape_player.get_input();
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float duration = 0.0;
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while(level == tape_player.get_input()) {
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duration += float(tape_player.get_cycles_until_next_event()) / float(tape_player.get_input_clock_rate());
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tape_player.run_for_input_pulse();
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}
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input = (input << 1);
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if(duration >= minimum_start_bit_duration) input |= 1;
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if((input&3) == 3) break;
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}
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/*
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"Each of the eight data bits is then read by counting the number of transitions within
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a fixed period of time (1B03H). If zero or one transitions are found it is a 0 bit, if two
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or three are found it is a 1 bit. If more than three transitions are found the routine
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terminates with Flag C as this is presumed to be a hardware error of some sort."
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*/
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int result = 0;
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const int cycles_per_window = int(
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0.5f +
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float(speed.low_high_disrimination_duration) *
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0.0000173f *
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float(tape_player.get_input_clock_rate())
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);
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int bits_left = 8;
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bool level = tape_player.get_input();
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while(!tape_player.get_tape()->is_at_end() && bits_left--) {
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// Count number of transitions within cycles_per_window.
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int transitions = 0;
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int cycles_remaining = cycles_per_window;
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while(!tape_player.get_tape()->is_at_end() && cycles_remaining) {
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const int cycles_until_next_event = int(tape_player.get_cycles_until_next_event());
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const int cycles_to_run_for = std::min(cycles_until_next_event, cycles_remaining);
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cycles_remaining -= cycles_to_run_for;
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tape_player.run_for(Cycles(cycles_to_run_for));
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if(level != tape_player.get_input()) {
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level = tape_player.get_input();
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transitions++;
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}
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}
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if(tape_player.get_tape()->is_at_end()) return -1;
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int next_bit = 0;
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switch(transitions) {
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case 0: case 1:
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next_bit = 0x00;
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break;
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case 2: case 3:
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next_bit = 0x80;
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break;
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default:
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return -1;
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}
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result = (result >> 1) | next_bit;
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/*
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"After the value of each bit has been determined a further one or two transitions are read (1B23H)
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to retain synchronization. With an odd transition count one more will be read, with an even
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transition count two more."
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*/
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int required_transitions = 2 - (transitions&1);
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while(!tape_player.get_tape()->is_at_end()) {
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tape_player.run_for_input_pulse();
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if(level != tape_player.get_input()) {
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level = tape_player.get_input();
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required_transitions--;
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if(!required_transitions) break;
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}
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}
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if(tape_player.get_tape()->is_at_end()) return -1;
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}
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return result;
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}
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