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123 lines
4.1 KiB
C++
123 lines
4.1 KiB
C++
//
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// PCMTrack.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 10/07/2016.
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// Copyright © 2016 Thomas Harte. All rights reserved.
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//
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#include "PCMTrack.hpp"
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#include "../../NumberTheory/Factors.hpp"
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using namespace Storage::Disk;
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PCMTrack::PCMTrack(std::vector<PCMSegment> segments)
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{
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segments_ = std::move(segments);
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fix_length();
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}
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PCMTrack::PCMTrack(PCMSegment segment)
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{
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segment.length_of_a_bit.length = 1;
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segment.length_of_a_bit.clock_rate = 1;
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segments_.push_back(std::move(segment));
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fix_length();
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}
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Track::Event PCMTrack::get_next_event()
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{
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// find the next 1 in the input stream, keeping count of length as we go, and assuming it's going
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// to be a flux transition
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next_event_.type = Track::Event::FluxTransition;
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next_event_.length.length = 0;
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while(segment_pointer_ < segments_.size())
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{
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unsigned int clock_multiplier = track_clock_rate_ / segments_[segment_pointer_].length_of_a_bit.clock_rate;
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unsigned int bit_length = clock_multiplier * segments_[segment_pointer_].length_of_a_bit.length;
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const uint8_t *segment_data = &segments_[segment_pointer_].data[0];
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while(bit_pointer_ < segments_[segment_pointer_].number_of_bits)
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{
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// for timing simplicity, bits are modelled as happening at the end of their window
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// TODO: should I account for the converse bit ordering? Or can I assume MSB first?
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int bit = segment_data[bit_pointer_ >> 3] & (0x80 >> (bit_pointer_&7));
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bit_pointer_++;
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next_event_.length.length += bit_length;
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if(bit) return next_event_;
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}
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bit_pointer_ = 0;
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segment_pointer_++;
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}
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// check whether we actually reached the index hole
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if(segment_pointer_ == segments_.size())
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{
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segment_pointer_ = 0;
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next_event_.type = Track::Event::IndexHole;
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}
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return next_event_;
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}
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Storage::Time PCMTrack::seek_to(const Time &time_since_index_hole)
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{
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segment_pointer_ = 0;
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// pick a common clock rate for counting time on this track and multiply up the time being sought appropriately
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Time time_so_far;
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Time target_time = time_since_index_hole;
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time_so_far.clock_rate = NumberTheory::least_common_multiple(next_event_.length.clock_rate, target_time.clock_rate);
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target_time.length *= time_so_far.clock_rate / target_time.clock_rate;
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target_time.clock_rate = time_so_far.clock_rate;
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while(segment_pointer_ < segments_.size())
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{
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// determine how long this segment is in terms of the master clock
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unsigned int clock_multiplier = time_so_far.clock_rate / next_event_.length.clock_rate;
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unsigned int bit_length = ((clock_multiplier / track_clock_rate_) / segments_[segment_pointer_].length_of_a_bit.clock_rate) * segments_[segment_pointer_].length_of_a_bit.length;
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unsigned int time_in_this_segment = bit_length * segments_[segment_pointer_].number_of_bits;
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// if this segment goes on longer than the time being sought, end here
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unsigned int time_remaining = target_time.length - time_so_far.length;
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if(time_in_this_segment >= time_remaining)
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{
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// get the amount of time actually to move into this segment
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unsigned int time_found = time_remaining - (time_remaining % bit_length);
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// resolve that into the stateful bit count
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bit_pointer_ = 1 + (time_remaining / bit_length);
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// update and return the time sought to
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time_so_far.length += time_found;
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return time_so_far;
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}
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// otherwise, accumulate time and keep moving
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time_so_far.length += time_in_this_segment;
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segment_pointer_++;
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}
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return target_time;
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}
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void PCMTrack::fix_length()
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{
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// find the least common multiple of all segment clock rates
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track_clock_rate_ = segments_[0].length_of_a_bit.clock_rate;
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for(size_t c = 1; c < segments_.size(); c++)
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{
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track_clock_rate_ = NumberTheory::least_common_multiple(track_clock_rate_, segments_[c].length_of_a_bit.clock_rate);
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}
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// thereby determine the total length, storing it to next_event as the track-total divisor
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next_event_.length.clock_rate = 0;
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for(size_t c = 0; c < segments_.size(); c++)
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{
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unsigned int multiplier = track_clock_rate_ / segments_[c].length_of_a_bit.clock_rate;
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next_event_.length.clock_rate += segments_[c].length_of_a_bit.length * segments_[c].number_of_bits * multiplier;
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}
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segment_pointer_ = bit_pointer_ = 0;
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}
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