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220 lines
7.2 KiB
C++
220 lines
7.2 KiB
C++
//
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// PCMPatchedTrack.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 15/12/2016.
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// Copyright © 2016 Thomas Harte. All rights reserved.
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//
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#include "PCMPatchedTrack.hpp"
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using namespace Storage::Disk;
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PCMPatchedTrack::PCMPatchedTrack(std::shared_ptr<Track> underlying_track) :
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underlying_track_(underlying_track)
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{
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const Time zero(0);
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const Time one(1);
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periods_.emplace_back(zero, one, zero, nullptr);
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active_period_ = periods_.begin();
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underlying_track_->seek_to(zero);
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}
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void PCMPatchedTrack::add_segment(const Time &start_time, const PCMSegment &segment)
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{
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std::shared_ptr<PCMSegmentEventSource> event_source(new PCMSegmentEventSource(segment));
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Time zero(0);
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Time end_time = start_time + event_source->get_length();
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Period insertion_period(start_time, end_time, zero, event_source);
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// the new segment may wrap around, so divide it up into track-length parts if required
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Time one = Time(1);
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while(insertion_period.end_time > one)
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{
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Time next_end_time = insertion_period.end_time - one;
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insertion_period.end_time = one;
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insert_period(insertion_period);
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insertion_period.start_time = zero;
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insertion_period.end_time = next_end_time;
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}
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insert_period(insertion_period);
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// the vector may have been resized, potentially invalidating active_period_ even if
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// the thing it pointed to is still the same thing. So work it out afresh.
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active_period_ = periods_.begin();
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while(active_period_->start_time > current_time_) active_period_++;
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}
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void PCMPatchedTrack::insert_period(const Period &period)
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{
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// find the existing period that the new period starts in
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std::vector<Period>::iterator start_period = periods_.begin();
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while(start_period->end_time <= period.start_time) start_period++;
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// find the existing period that the new period end in
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std::vector<Period>::iterator end_period = start_period;
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while(end_period->end_time < period.end_time) end_period++;
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// perform a division if called for
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if(start_period == end_period)
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{
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if(start_period->start_time == period.start_time)
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{
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if(start_period->end_time == period.end_time)
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{
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// period has the same start and end time as start_period. So just replace it.
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*start_period = period;
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}
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else
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{
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// period has the same start time as start_period but a different end time.
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// So trim the left-hand side of start_period and insert the new period in front.
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start_period->push_start_to_time(period.end_time);
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periods_.insert(start_period, period);
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}
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}
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else
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{
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if(start_period->end_time == period.end_time)
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{
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// period has the same end time as start_period but a different start time.
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// So trim the right-hand side of start_period and insert the new period afterwards
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start_period->trim_end_to_time(period.start_time);
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periods_.insert(start_period + 1, period);
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}
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else
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{
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// start_period has an earlier start and a later end than period. So copy it,
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// trim the right off the original and the left off the copy, then insert the
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// new period and the copy after start_period
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Period right_period = *start_period;
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right_period.push_start_to_time(period.end_time);
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start_period->trim_end_to_time(period.start_time);
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// the iterator isn't guaranteed to survive the insert, e.g. if it causes a resize
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std::vector<Period>::difference_type offset = start_period - periods_.begin();
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periods_.insert(start_period + 1, period);
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periods_.insert(periods_.begin() + offset + 2, right_period);
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}
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}
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}
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else
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{
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bool should_insert = false;
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std::vector<Period>::difference_type insertion_offset = 0;
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if(start_period->start_time == period.start_time)
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{
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// start_period starts at the same place as period. Period then
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// ends after start_period. So replace.
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*start_period = period;
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should_insert = false;
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}
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else
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{
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// start_period starts before period. So trim and plan to insert afterwards.
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start_period->trim_end_to_time(period.start_time);
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should_insert = true;
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insertion_offset = start_period + 1 - periods_.begin();
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}
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if(end_period->end_time == period.end_time)
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{
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// end_period ends exactly when period does. So include it from the list to delete
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end_period++;
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}
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else
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{
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end_period->push_start_to_time(period.end_time);
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}
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// remove everything that is exiting in between
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periods_.erase(start_period + 1, end_period);
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// insert the new period if required
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if(should_insert)
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periods_.insert(periods_.begin()+insertion_offset, period);
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}
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}
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Track::Event PCMPatchedTrack::get_next_event()
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{
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const Time one(1);
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const Time zero(0);
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Time extra_time(0);
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Time period_error(0);
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while(1)
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{
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// get the next event from the current active period
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Track::Event event;
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if(active_period_->event_source) event = active_period_->event_source->get_next_event();
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else event = underlying_track_->get_next_event();
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// see what time that gets us to. If it's still within the current period, return the found event
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Time event_time = current_time_ + event.length - period_error;
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if(event_time < active_period_->end_time)
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{
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current_time_ = event_time;
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event.length += extra_time - period_error;
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return event;
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}
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// otherwise move time back to the end of the outgoing period, accumulating the error into
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// extra_time, and advance the extra period
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extra_time += (active_period_->end_time - current_time_);
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current_time_ = active_period_->end_time;
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active_period_++;
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// test for having reached the end of the track
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if(active_period_ == periods_.end())
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{
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// if this is the end of the track then jump the active pointer back to the beginning
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// of the list of periods and reset current_time_ to zero
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active_period_ = periods_.begin();
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if(active_period_->event_source) active_period_->event_source->reset();
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else underlying_track_->seek_to(zero);
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current_time_ = zero;
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// then return an index hole that is the aggregation of accumulated extra_time away
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event.type = Storage::Disk::Track::Event::IndexHole;
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event.length = extra_time;
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return event;
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}
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else
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{
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// if this is not the end of the track then move to the next period and note how much will need
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// to be subtracted if an event is found here
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if(active_period_->event_source) period_error = active_period_->segment_start_time - active_period_->event_source->seek_to(active_period_->segment_start_time);
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else period_error = current_time_ - underlying_track_->seek_to(current_time_);
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}
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}
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}
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Storage::Time PCMPatchedTrack::seek_to(const Time &time_since_index_hole)
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{
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// start at the beginning and continue while segments start after the time sought
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active_period_ = periods_.begin();
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while(active_period_->start_time > time_since_index_hole) active_period_++;
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// allow whatever storage represents the period found to perform its seek
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if(active_period_->event_source)
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return active_period_->event_source->seek_to(time_since_index_hole - active_period_->start_time) + active_period_->start_time;
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else
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return underlying_track_->seek_to(time_since_index_hole);
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}
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void PCMPatchedTrack::Period::push_start_to_time(const Storage::Time &new_start_time)
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{
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segment_start_time += new_start_time - start_time;
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start_time = new_start_time;
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}
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void PCMPatchedTrack::Period::trim_end_to_time(const Storage::Time &new_end_time)
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{
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end_time = new_end_time;
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}
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