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111 lines
3.9 KiB
C++
111 lines
3.9 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() : segment_pointer_(0) {}
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PCMTrack::PCMTrack(const std::vector<PCMSegment> &segments) : PCMTrack() {
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// sum total length of all segments
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Time total_length;
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for(auto segment : segments) {
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total_length += segment.length_of_a_bit * segment.number_of_bits;
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}
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total_length.simplify();
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// each segment is then some proportion of the total; for them all to sum to 1 they'll
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// need to be adjusted to be
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for(auto segment : segments) {
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Time original_length_of_segment = segment.length_of_a_bit * segment.number_of_bits;
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Time proportion_of_whole = original_length_of_segment / total_length;
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proportion_of_whole.simplify();
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PCMSegment length_adjusted_segment = segment;
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length_adjusted_segment.length_of_a_bit = proportion_of_whole / segment.number_of_bits;
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length_adjusted_segment.length_of_a_bit.simplify();
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segment_event_sources_.emplace_back(length_adjusted_segment);
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}
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}
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PCMTrack::PCMTrack(const PCMSegment &segment) : PCMTrack() {
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// a single segment necessarily fills the track
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PCMSegment length_adjusted_segment = segment;
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length_adjusted_segment.length_of_a_bit.length = 1;
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length_adjusted_segment.length_of_a_bit.clock_rate = segment.number_of_bits;
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segment_event_sources_.emplace_back(length_adjusted_segment);
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}
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PCMTrack::PCMTrack(const PCMTrack &original) : PCMTrack() {
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segment_event_sources_ = original.segment_event_sources_;
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}
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Track *PCMTrack::clone() {
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return new PCMTrack(*this);
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}
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Track::Event PCMTrack::get_next_event() {
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// ask the current segment for a new event
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Track::Event event = segment_event_sources_[segment_pointer_].get_next_event();
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// if it was a flux transition, that's code for end-of-segment, so dig deeper
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if(event.type == Track::Event::IndexHole) {
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// multiple segments may be crossed, so start summing lengths in case the net
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// effect is an index hole
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Time total_length = event.length;
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// continue until somewhere no returning an index hole
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while(event.type == Track::Event::IndexHole) {
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// advance to the [start of] the next segment
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segment_pointer_ = (segment_pointer_ + 1) % segment_event_sources_.size();
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segment_event_sources_[segment_pointer_].reset();
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// if this is all the way back to the start, that's a genuine index hole,
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// so set the summed length and return
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if(!segment_pointer_) {
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return event;
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}
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// otherwise get the next event (if it's not another index hole, the loop will end momentarily),
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// summing in any prior accumulated time
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event = segment_event_sources_[segment_pointer_].get_next_event();
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total_length += event.length;
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event.length = total_length;
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}
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}
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return event;
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}
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Storage::Time PCMTrack::seek_to(const Time &time_since_index_hole) {
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// initial condition: no time yet accumulated, the whole thing requested yet to navigate
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Storage::Time accumulated_time;
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Storage::Time time_left_to_seek = time_since_index_hole;
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// search from the first segment
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segment_pointer_ = 0;
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do {
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// if this segment extends beyond the amount of time left to seek, trust it to complete
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// the seek
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Storage::Time segment_time = segment_event_sources_[segment_pointer_].get_length();
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if(segment_time > time_left_to_seek) {
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return accumulated_time + segment_event_sources_[segment_pointer_].seek_to(time_left_to_seek);
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}
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// otherwise swallow this segment, updating the time left to seek and time so far accumulated
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time_left_to_seek -= segment_time;
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accumulated_time += segment_time;
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segment_pointer_ = (segment_pointer_ + 1) % segment_event_sources_.size();
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} while(segment_pointer_);
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// if all segments have now been swallowed, the closest we can get is the very end of
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// the list of segments
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return accumulated_time;
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}
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