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233 lines
6.4 KiB
C++
233 lines
6.4 KiB
C++
//
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// 6526Implementation.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 18/07/2021.
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// Copyright © 2021 Thomas Harte. All rights reserved.
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//
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#pragma once
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namespace MOS::MOS6526 {
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enum Interrupts: uint8_t {
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TimerA = 1 << 0,
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TimerB = 1 << 1,
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Alarm = 1 << 2,
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SerialPort = 1 << 3,
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Flag = 1 << 4,
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};
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template <typename BusHandlerT, Personality personality>
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template <int port> void MOS6526<BusHandlerT, personality>::set_port_output() {
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const uint8_t output = output_[port] | (~data_direction_[port]);
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port_handler_.set_port_output(Port(port), output);
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}
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template <typename BusHandlerT, Personality personality>
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template <int port> uint8_t MOS6526<BusHandlerT, personality>::get_port_input() {
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// Avoid bothering the port handler if there's no input active.
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const uint8_t input_mask = ~data_direction_[port];
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const uint8_t input = input_mask ? port_handler_.get_port_input(Port(port)) : 0x00;
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return (input & input_mask) | (output_[port] & data_direction_[port]);
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}
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template <typename BusHandlerT, Personality personality>
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void MOS6526<BusHandlerT, personality>::posit_interrupt(const uint8_t mask) {
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if(!mask) {
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return;
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}
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interrupt_state_ |= mask;
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update_interrupts();
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}
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template <typename BusHandlerT, Personality personality>
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void MOS6526<BusHandlerT, personality>::update_interrupts() {
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if(interrupt_state_ & interrupt_control_) {
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pending_ |= InterruptInOne;
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}
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}
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template <typename BusHandlerT, Personality personality>
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bool MOS6526<BusHandlerT, personality>::get_interrupt_line() {
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return interrupt_state_ & 0x80;
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}
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template <typename BusHandlerT, Personality personality>
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void MOS6526<BusHandlerT, personality>::set_cnt_input(const bool active) {
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cnt_edge_ = active && !cnt_state_;
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cnt_state_ = active;
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}
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template <typename BusHandlerT, Personality personality>
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void MOS6526<BusHandlerT, personality>::set_flag_input(const bool low) {
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if(low && !flag_state_) {
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posit_interrupt(Interrupts::Flag);
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}
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flag_state_ = low;
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}
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template <typename BusHandlerT, Personality personality>
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void MOS6526<BusHandlerT, personality>::write(int address, const uint8_t value) {
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address &= 0xf;
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switch(address) {
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// Port output.
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case 0:
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output_[0] = value;
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set_port_output<0>();
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break;
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case 1:
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output_[1] = value;
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set_port_output<1>();
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break;
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// Port direction.
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case 2:
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data_direction_[0] = value;
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set_port_output<0>();
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break;
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case 3:
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data_direction_[1] = value;
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set_port_output<1>();
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break;
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// Counters; writes set the reload values.
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case 4: counter_[0].template set_reload<0, personality == Personality::P8250>(value); break;
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case 5: counter_[0].template set_reload<8, personality == Personality::P8250>(value); break;
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case 6: counter_[1].template set_reload<0, personality == Personality::P8250>(value); break;
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case 7: counter_[1].template set_reload<8, personality == Personality::P8250>(value); break;
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// Time-of-day clock.
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case 8: tod_.template write<0>(value); break;
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case 9: tod_.template write<1>(value); break;
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case 10: tod_.template write<2>(value); break;
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case 11: tod_.template write<3>(value); break;
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// Interrupt control.
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case 13: {
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if(value & 0x80) {
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interrupt_control_ |= value & 0x7f;
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} else {
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interrupt_control_ &= ~(value & 0x7f);
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}
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update_interrupts();
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} break;
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// Control. Posted to both the counters and the clock as it affects both.
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case 14:
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counter_[0].template set_control<false>(value);
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tod_.template set_control<false>(value);
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if(shifter_is_output_ != bool(value & 0x40)) {
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shifter_is_output_ = value & 0x40;
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shift_bits_ = 0;
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}
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break;
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case 15:
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counter_[1].template set_control<true>(value);
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tod_.template set_control<true>(value);
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break;
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// Shift control.
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case 12:
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log.error().append("TODO: write to shift register");
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break;
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// Logically unreachable.
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default: break;
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}
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}
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template <typename BusHandlerT, Personality personality>
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uint8_t MOS6526<BusHandlerT, personality>::read(int address) {
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address &= 0xf;
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switch(address) {
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case 0: return get_port_input<0>();
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case 1: return get_port_input<1>();
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case 2: case 3:
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return data_direction_[address - 2];
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// Counters; reads obtain the current values.
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case 4: return uint8_t(counter_[0].value >> 0);
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case 5: return uint8_t(counter_[0].value >> 8);
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case 6: return uint8_t(counter_[1].value >> 0);
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case 7: return uint8_t(counter_[1].value >> 8);
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// Interrupt state.
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case 13: {
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const uint8_t result = interrupt_state_;
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interrupt_state_ = 0;
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pending_ &= ~(InterruptNow | InterruptInOne);
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update_interrupts();
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return result;
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} break;
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case 14: case 15:
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return counter_[address - 14].control;
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// Time-of-day clock.
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case 8: return tod_.template read<0>();
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case 9: return tod_.template read<1>();
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case 10: return tod_.template read<2>();
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case 11: return tod_.template read<3>();
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// Shift register.
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case 12: return shift_data_;
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// Logically unreachable.
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default: break;
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}
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return 0xff;
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}
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template <typename BusHandlerT, Personality personality>
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void MOS6526<BusHandlerT, personality>::run_for(const HalfCycles half_cycles) {
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half_divider_ += half_cycles;
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int sub = half_divider_.divide_cycles().template as<int>();
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while(sub--) {
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pending_ <<= 1;
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if(pending_ & InterruptNow) {
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interrupt_state_ |= 0x80;
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}
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pending_ &= PendingClearMask;
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// TODO: use CNT potentially to clock timer A, elimiante conditional above.
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const bool timer1_did_reload = counter_[0].template advance<false>(false, cnt_state_, cnt_edge_);
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const bool timer1_carry = timer1_did_reload && (counter_[1].control & 0x60) == 0x40;
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const bool timer2_did_reload = counter_[1].template advance<true>(timer1_carry, cnt_state_, cnt_edge_);
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posit_interrupt((timer1_did_reload ? Interrupts::TimerA : 0x00) | (timer2_did_reload ? Interrupts::TimerB : 0x00));
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cnt_edge_ = false;
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}
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}
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template <typename BusHandlerT, Personality personality>
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void MOS6526<BusHandlerT, personality>::advance_tod(const int count) {
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if(!count) return;
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if(tod_.advance(count)) {
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posit_interrupt(Interrupts::Alarm);
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}
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}
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template <typename BusHandlerT, Personality personality>
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bool MOS6526<BusHandlerT, personality>::serial_line_did_produce_bit(Serial::Line<true> *, const int bit) {
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// TODO: post CNT change; might affect timer.
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if(!shifter_is_output_) {
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shift_register_ = uint8_t((shift_register_ << 1) | bit);
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++shift_bits_;
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if(shift_bits_ == 8) {
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shift_bits_ = 0;
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shift_data_ = shift_register_;
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posit_interrupt(Interrupts::SerialPort);
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}
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}
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return true;
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}
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}
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