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212 lines
6.7 KiB
C++
212 lines
6.7 KiB
C++
//
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// SerialPort.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 12/10/2019.
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// Copyright © 2019 Thomas Harte. All rights reserved.
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//
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#include "Line.hpp"
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#include <limits>
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using namespace Serial;
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template <bool include_clock>
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void Line<include_clock>::set_writer_clock_rate(HalfCycles clock_rate) {
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clock_rate_ = clock_rate;
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}
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template <bool include_clock>
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void Line<include_clock>::advance_writer(HalfCycles cycles) {
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if(cycles == HalfCycles(0)) return;
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const auto integral_cycles = cycles.as_integral();
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remaining_delays_ = std::max(remaining_delays_ - integral_cycles, Cycles::IntType(0));
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if(events_.empty()) {
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write_cycles_since_delegate_call_ += integral_cycles;
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if(transmission_extra_) {
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transmission_extra_ -= integral_cycles;
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if(transmission_extra_ <= 0) {
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transmission_extra_ = 0;
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if constexpr (!include_clock) {
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update_delegate(level_);
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}
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}
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}
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} else {
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while(!events_.empty()) {
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if(events_.front().delay <= integral_cycles) {
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cycles -= events_.front().delay;
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write_cycles_since_delegate_call_ += events_.front().delay;
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const auto old_level = level_;
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auto iterator = events_.begin() + 1;
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while(iterator != events_.end() && iterator->type != Event::Delay) {
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level_ = iterator->type == Event::SetHigh;
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if constexpr(include_clock) {
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update_delegate(level_);
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}
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++iterator;
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}
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events_.erase(events_.begin(), iterator);
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if constexpr (!include_clock) {
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if(old_level != level_) {
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update_delegate(old_level);
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}
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}
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// Book enough extra time for the read delegate to be posted
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// the final bit if one is attached.
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if(events_.empty()) {
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transmission_extra_ = minimum_write_cycles_for_read_delegate_bit();
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}
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} else {
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events_.front().delay -= integral_cycles;
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write_cycles_since_delegate_call_ += integral_cycles;
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break;
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}
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}
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}
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}
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template <bool include_clock>
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void Line<include_clock>::write(bool level) {
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if(!events_.empty()) {
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events_.emplace_back();
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events_.back().type = level ? Event::SetHigh : Event::SetLow;
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} else {
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level_ = level;
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transmission_extra_ = minimum_write_cycles_for_read_delegate_bit();
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}
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}
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template <bool include_clock>
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template <bool lsb_first, typename IntT> void Line<include_clock>::write_internal(HalfCycles cycles, int count, IntT levels) {
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remaining_delays_ += count * cycles.as_integral();
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auto event = events_.size();
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events_.resize(events_.size() + size_t(count)*2);
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while(count--) {
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events_[event].type = Event::Delay;
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events_[event].delay = int(cycles.as_integral());
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IntT bit;
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if constexpr (lsb_first) {
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bit = levels & 1;
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levels >>= 1;
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} else {
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constexpr auto top_bit = IntT(0x80) << ((sizeof(IntT) - 1) * 8);
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bit = levels & top_bit;
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levels <<= 1;
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}
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events_[event+1].type = bit ? Event::SetHigh : Event::SetLow;
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event += 2;
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}
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}
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template <bool include_clock>
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void Line<include_clock>::write(HalfCycles cycles, int count, int levels) {
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write_internal<true, int>(cycles, count, levels);
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}
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template <bool include_clock>
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template <bool lsb_first, typename IntT> void Line<include_clock>::write(HalfCycles cycles, IntT value) {
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write_internal<lsb_first, IntT>(cycles, 8 * sizeof(IntT), value);
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}
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template <bool include_clock>
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void Line<include_clock>::reset_writing() {
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remaining_delays_ = 0;
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events_.clear();
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}
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template <bool include_clock>
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bool Line<include_clock>::read() const {
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return level_;
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}
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template <bool include_clock>
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void Line<include_clock>::set_read_delegate(ReadDelegate *delegate, Storage::Time bit_length) {
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read_delegate_ = delegate;
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if constexpr (include_clock) {
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read_delegate_bit_length_ = bit_length;
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read_delegate_bit_length_.simplify();
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write_cycles_since_delegate_call_ = 0;
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}
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}
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template <bool include_clock>
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void Line<include_clock>::update_delegate(bool level) {
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// Exit early if there's no delegate, or if the delegate is waiting for
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// zero and this isn't zero.
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if(!read_delegate_) return;
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if constexpr (!include_clock) {
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const int cycles_to_forward = write_cycles_since_delegate_call_;
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write_cycles_since_delegate_call_ = 0;
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if(level && read_delegate_phase_ == ReadDelegatePhase::WaitingForZero) return;
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// Deal with a transition out of waiting-for-zero mode by seeding time left
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// in bit at half a bit.
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if(read_delegate_phase_ == ReadDelegatePhase::WaitingForZero) {
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time_left_in_bit_ = read_delegate_bit_length_;
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time_left_in_bit_.clock_rate <<= 1;
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read_delegate_phase_ = ReadDelegatePhase::Serialising;
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}
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// Forward as many bits as occur.
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Storage::Time time_left(cycles_to_forward, int(clock_rate_.as_integral()));
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const int bit = level ? 1 : 0;
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int bits = 0;
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while(time_left >= time_left_in_bit_) {
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++bits;
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if(!read_delegate_->serial_line_did_produce_bit(this, bit)) {
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read_delegate_phase_ = ReadDelegatePhase::WaitingForZero;
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if(bit) return;
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}
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time_left -= time_left_in_bit_;
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time_left_in_bit_ = read_delegate_bit_length_;
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}
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time_left_in_bit_ -= time_left;
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} else {
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read_delegate_->serial_line_did_produce_bit(this, level);
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}
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}
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template <bool include_clock>
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Cycles::IntType Line<include_clock>::minimum_write_cycles_for_read_delegate_bit() {
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if(!read_delegate_) return 0;
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return 1 + (read_delegate_bit_length_ * unsigned(clock_rate_.as_integral())).template get<int>();
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}
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//
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// Explicitly instantiate the meaningful instances of templates above;
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// this class uses templates primarily to keep the interface compact and
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// to take advantage of constexpr functionality selection, not so as
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// to be generic.
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//
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template class Serial::Line<true>;
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template class Serial::Line<false>;
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template void Line<true>::write<true, uint8_t>(HalfCycles, uint8_t);
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template void Line<true>::write<false, uint8_t>(HalfCycles, uint8_t);
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template void Line<true>::write<true, uint16_t>(HalfCycles, uint16_t);
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template void Line<true>::write<false, uint16_t>(HalfCycles, uint16_t);
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template void Line<true>::write<true, uint32_t>(HalfCycles, uint32_t);
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template void Line<true>::write<false, uint32_t>(HalfCycles, uint32_t);
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template void Line<true>::write<true, uint64_t>(HalfCycles, uint64_t);
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template void Line<true>::write<false, uint64_t>(HalfCycles, uint64_t);
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template void Line<false>::write<true, uint8_t>(HalfCycles, uint8_t);
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template void Line<false>::write<false, uint8_t>(HalfCycles, uint8_t);
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template void Line<false>::write<true, uint16_t>(HalfCycles, uint16_t);
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template void Line<false>::write<false, uint16_t>(HalfCycles, uint16_t);
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template void Line<false>::write<true, uint32_t>(HalfCycles, uint32_t);
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template void Line<false>::write<false, uint32_t>(HalfCycles, uint32_t);
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template void Line<false>::write<true, uint64_t>(HalfCycles, uint64_t);
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template void Line<false>::write<false, uint64_t>(HalfCycles, uint64_t);
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