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https://github.com/TomHarte/CLK.git
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Eliminate runtime switch.
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5c7f94d2ef
commit
032eeb4757
@ -179,14 +179,9 @@ void MFP68901::write(int address, uint8_t value) {
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update_clocking_observer();
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}
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void MFP68901::run_for(HalfCycles time) {
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cycles_left_ += time;
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const int cycles = int(cycles_left_.flush<Cycles>().as_integral());
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if(!cycles) return;
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for(int c = 0; c < 4; ++c) {
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if(timers_[c].mode >= TimerMode::Delay) {
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template <int timer>
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void MFP68901::run_timer_for(int cycles) {
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if(timers_[timer].mode >= TimerMode::Delay) {
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// This code applies the timer prescaling only. prescale_count is used to count
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// upwards rather than downwards for simplicity, but on the real hardware it's
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// pretty safe to assume it actually counted downwards. So the clamp to 0 is
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@ -195,18 +190,29 @@ void MFP68901::run_for(HalfCycles time) {
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// counter should roll over in 254 cycles. If the user at that point changes the
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// prescale_count to 1 then the counter will need to be altered to -253 and
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// allowed to keep counting up until it crosses both 0 and 1.
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const int dividend = timers_[c].prescale_count + cycles;
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const int decrements = std::max(dividend / timers_[c].prescale, 0);
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const int dividend = timers_[timer].prescale_count + cycles;
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const int decrements = std::max(dividend / timers_[timer].prescale, 0);
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if(decrements) {
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decrement_timer(c, decrements);
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timers_[c].prescale_count = dividend % timers_[c].prescale;
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decrement_timer<timer>(decrements);
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timers_[timer].prescale_count = dividend % timers_[timer].prescale;
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} else {
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timers_[c].prescale_count += cycles;
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}
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timers_[timer].prescale_count += cycles;
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}
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}
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}
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void MFP68901::run_for(HalfCycles time) {
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cycles_left_ += time;
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const int cycles = int(cycles_left_.flush<Cycles>().as_integral());
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if(!cycles) return;
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run_timer_for<0>(cycles);
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run_timer_for<1>(cycles);
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run_timer_for<2>(cycles);
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run_timer_for<3>(cycles);
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}
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HalfCycles MFP68901::next_sequence_point() {
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return HalfCycles::max();
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}
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@ -240,7 +246,8 @@ uint8_t MFP68901::get_timer_data(int timer) {
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return timers_[timer].value;
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}
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void MFP68901::set_timer_event_input(int channel, bool value) {
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template <int channel>
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void MFP68901::set_timer_event_input(bool value) {
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if(timers_[channel].event_input == value) return;
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timers_[channel].event_input = value;
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@ -248,7 +255,7 @@ void MFP68901::set_timer_event_input(int channel, bool value) {
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// "The active state of the signal on TAI or TBI is dependent upon the associated
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// Interrupt Channel’s edge bit (GPIP 4 for TAI and GPIP 3 for TBI [...] ).
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// If the edge bit associated with the TAI or TBI input is a one, it will be active high.
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decrement_timer(channel, 1);
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decrement_timer<channel>(1);
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}
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// TODO:
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@ -261,7 +268,13 @@ void MFP68901::set_timer_event_input(int channel, bool value) {
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// (the final bit probably explains 13 cycles of the DE to interrupt latency; not sure about the other ~15)
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}
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void MFP68901::decrement_timer(int timer, int amount) {
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template void MFP68901::set_timer_event_input<0>(bool);
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template void MFP68901::set_timer_event_input<1>(bool);
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template void MFP68901::set_timer_event_input<2>(bool);
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template void MFP68901::set_timer_event_input<3>(bool);
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template <int timer>
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void MFP68901::decrement_timer(int amount) {
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while(amount--) {
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--timers_[timer].value;
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if(timers_[timer].value < 1) {
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@ -43,7 +43,8 @@ class MFP68901: public ClockingHint::Source {
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HalfCycles next_sequence_point();
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/// Sets the current level of either of the timer event inputs — TAI and TBI in datasheet terms.
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void set_timer_event_input(int channel, bool value);
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template <int channel>
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void set_timer_event_input(bool value);
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/// Sets a port handler, a receiver that will be notified upon any change in GPIP output.
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///
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@ -86,7 +87,8 @@ class MFP68901: public ClockingHint::Source {
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void set_timer_mode(int timer, TimerMode, int prescale, bool reset_timer);
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void set_timer_data(int timer, uint8_t);
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uint8_t get_timer_data(int timer);
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void decrement_timer(int timer, int amount);
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template <int timer> void decrement_timer(int amount);
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template <int timer> void run_timer_for(int cycles);
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struct Timer {
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TimerMode mode = TimerMode::Stopped;
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@ -484,7 +484,7 @@ class ConcreteMachine:
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length -= video_.cycles_until_implicit_flush();
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video_ += video_.cycles_until_implicit_flush();
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mfp_->set_timer_event_input(1, video_->display_enabled());
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mfp_->set_timer_event_input<1>(video_->display_enabled());
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update_interrupt_input();
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}
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@ -62,7 +62,7 @@
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</Testables>
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</TestAction>
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<LaunchAction
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buildConfiguration = "Debug"
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buildConfiguration = "Release"
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selectedDebuggerIdentifier = "Xcode.DebuggerFoundation.Debugger.LLDB"
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selectedLauncherIdentifier = "Xcode.DebuggerFoundation.Launcher.LLDB"
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enableASanStackUseAfterReturn = "YES"
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