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260 lines
6.4 KiB
C++
260 lines
6.4 KiB
C++
//
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// PIT.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 20/11/2023.
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// Copyright © 2023 Thomas Harte. All rights reserved.
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//
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#ifndef PIT_hpp
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#define PIT_hpp
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namespace PCCompatible {
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template <bool is_8254, typename PITObserver>
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class i8253 {
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public:
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i8253(PITObserver &observer) : observer_(observer) {}
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template <int channel> uint8_t read() {
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return channels_[channel].read();
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}
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template <int channel> void write(uint8_t value) {
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channels_[channel].template write<channel>(observer_, value);
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}
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void set_mode(uint8_t value) {
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const int channel_id = (value >> 6) & 3;
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if(channel_id == 3) {
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// TODO: decode rest of read-back command.
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read_back_ = is_8254;
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return;
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}
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switch(channel_id) {
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case 0: channels_[0].template set_mode<0>(observer_, value); break;
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case 1: channels_[1].template set_mode<1>(observer_, value); break;
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case 2: channels_[2].template set_mode<2>(observer_, value); break;
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}
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}
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void run_for(Cycles cycles) {
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// TODO: be intelligent enough to take ticks outside the loop when appropriate.
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auto ticks = cycles.as<int>();
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while(ticks--) {
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channels_[0].template advance<0>(observer_, 1);
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channels_[1].template advance<1>(observer_, 1);
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channels_[2].template advance<2>(observer_, 1);
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}
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}
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private:
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// The target for output changes.
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PITObserver &observer_;
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// Supported only on 8254s.
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bool read_back_ = false;
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enum class LatchMode {
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LowOnly,
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HighOnly,
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LowHigh,
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};
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enum class OperatingMode {
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InterruptOnTerminalCount = 0,
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HardwareRetriggerableOneShot = 1,
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RateGenerator = 2,
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SquareWaveGenerator = 3,
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SoftwareTriggeredStrobe = 4,
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HardwareTriggeredStrobe = 5,
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};
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struct Channel {
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LatchMode latch_mode = LatchMode::LowHigh;
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OperatingMode mode = OperatingMode::InterruptOnTerminalCount;
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bool is_bcd = false;
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bool gated = false;
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bool awaiting_reload = true;
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uint16_t counter = 0;
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uint16_t reload = 0;
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uint16_t latch = 0;
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bool output = false;
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bool next_access_high = false;
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void latch_value() {
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latch = counter;
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}
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template <int channel>
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void set_mode(PITObserver &observer, uint8_t value) {
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switch((value >> 4) & 3) {
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default:
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latch_value();
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return;
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case 1: latch_mode = LatchMode::LowOnly; break;
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case 2: latch_mode = LatchMode::HighOnly; break;
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case 3: latch_mode = LatchMode::LowHigh; break;
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}
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is_bcd = value & 1;
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next_access_high = false;
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const auto operating_mode = (value >> 1) & 7;
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switch(operating_mode) {
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default: mode = OperatingMode(operating_mode); break;
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case 6: mode = OperatingMode::RateGenerator; break;
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case 7: mode = OperatingMode::SquareWaveGenerator; break;
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}
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// Set up operating mode.
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switch(mode) {
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default:
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printf("PIT: unimplemented mode %d\n", int(mode));
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break;
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case OperatingMode::InterruptOnTerminalCount:
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case OperatingMode::HardwareRetriggerableOneShot:
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set_output<channel>(observer, false);
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awaiting_reload = true;
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break;
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case OperatingMode::RateGenerator:
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case OperatingMode::SquareWaveGenerator:
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set_output<channel>(observer, true);
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awaiting_reload = true;
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break;
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}
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}
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template <int channel>
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void advance(PITObserver &observer, int ticks) {
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if(gated || awaiting_reload) return;
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// TODO: BCD mode is completely ignored below. Possibly not too important.
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switch(mode) {
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case OperatingMode::InterruptOnTerminalCount:
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case OperatingMode::HardwareRetriggerableOneShot:
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// Output goes permanently high upon a tick from 1 to 0; reload value is not reused.
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set_output<channel>(observer, output | (counter <= ticks));
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counter -= ticks;
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break;
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case OperatingMode::SquareWaveGenerator: {
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ticks <<= 1;
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do {
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// If there's a step from 1 to 0 within the next batch of ticks,
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// toggle output and apply a reload.
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if(counter && ticks >= counter) {
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set_output<channel>(observer, output ^ true);
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ticks -= counter;
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const uint16_t reload_mask = output ? 0xffff : 0xfffe;
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counter = reload & reload_mask;
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continue;
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}
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counter -= ticks;
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} while(false);
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} break;
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case OperatingMode::RateGenerator:
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do {
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// Check for a step from 2 to 1 within the next batch of ticks, which would cause output
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// to go high.
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if(counter > 1 && ticks >= counter - 1) {
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set_output<channel>(observer, true);
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ticks -= counter - 1;
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counter = 1;
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continue;
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}
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// If there is a step from 1 to 0, reload and set output back to low.
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if(counter && ticks >= counter) {
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set_output<channel>(observer, false);
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ticks -= counter;
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counter = reload;
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continue;
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}
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// Otherwise, just continue.
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counter -= ticks;
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} while(false);
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break;
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default:
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// TODO.
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break;
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}
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}
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template <int channel>
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void write([[maybe_unused]] PITObserver &observer, uint8_t value) {
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switch(latch_mode) {
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case LatchMode::LowOnly:
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reload = (reload & 0xff00) | value;
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break;
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case LatchMode::HighOnly:
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reload = uint16_t((reload & 0x00ff) | (value << 8));
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break;
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case LatchMode::LowHigh:
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next_access_high ^= true;
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if(next_access_high) {
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reload = (reload & 0xff00) | value;
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awaiting_reload = true;
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return;
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}
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reload = uint16_t((reload & 0x00ff) | (value << 8));
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break;
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}
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awaiting_reload = false;
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switch(mode) {
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default:
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counter = reload;
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break;
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case OperatingMode::SquareWaveGenerator:
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counter = reload & ~1;
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break;
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}
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}
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uint8_t read() {
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switch(latch_mode) {
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case LatchMode::LowOnly: return uint8_t(latch);
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case LatchMode::HighOnly: return uint8_t(latch >> 8);
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default:
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case LatchMode::LowHigh:
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next_access_high ^= true;
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return next_access_high ? uint8_t(latch) : uint8_t(latch >> 8);
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break;
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}
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}
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template <int channel>
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void set_output(PITObserver &observer, bool level) {
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if(output == level) {
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return;
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}
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// TODO: how should time be notified?
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observer.template update_output<channel>(level);
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output = level;
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}
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} channels_[3];
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// TODO:
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//
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// RateGenerator: output goes high if gated.
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};
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}
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#endif /* PIT_hpp */
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