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CLK/Storage/TimedEventLoop.cpp

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//
// TimedEventLoop.cpp
// Clock Signal
//
// Created by Thomas Harte on 29/07/2016.
// Copyright © 2016 Thomas Harte. All rights reserved.
//
#include "TimedEventLoop.hpp"
#include "../NumberTheory/Factors.hpp"
#include <algorithm>
using namespace Storage;
TimedEventLoop::TimedEventLoop(unsigned int input_clock_rate) :
input_clock_rate_(input_clock_rate) {}
void TimedEventLoop::run_for(const Cycles cycles) {
cycles_until_event_ -= cycles.as_int();
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while(cycles_until_event_ <= 0) {
process_next_event();
}
}
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unsigned int TimedEventLoop::get_cycles_until_next_event() {
return (unsigned int)std::max(cycles_until_event_, 0);
}
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void TimedEventLoop::reset_timer() {
subcycles_until_event_.set_zero();
cycles_until_event_ = 0;
}
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void TimedEventLoop::jump_to_next_event() {
reset_timer();
process_next_event();
}
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void TimedEventLoop::set_next_event_time_interval(Time interval) {
// Calculate [interval]*[input clock rate] + [subcycles until this event].
int64_t denominator = (int64_t)interval.clock_rate * (int64_t)subcycles_until_event_.clock_rate;
int64_t numerator =
(int64_t)subcycles_until_event_.clock_rate * (int64_t)input_clock_rate_ * (int64_t)interval.length +
(int64_t)interval.clock_rate * (int64_t)subcycles_until_event_.length;
// Simplify if necessary.
if(denominator > std::numeric_limits<unsigned int>::max()) {
int64_t common_divisor = NumberTheory::greatest_common_divisor(numerator % denominator, denominator);
denominator /= common_divisor;
numerator /= common_divisor;
}
// So this event will fire in the integral number of cycles from now, putting us at the remainder
// number of subcycles
cycles_until_event_ = (int)(numerator / denominator);
subcycles_until_event_.length = (unsigned int)(numerator % denominator);
subcycles_until_event_.clock_rate = (unsigned int)denominator;
}
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Time TimedEventLoop::get_time_into_next_event() {
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// TODO: calculate, presumably as [length of interval] - ([cycles left] + [subcycles left])
Time zero;
return zero;
}