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CLK/Components/68901/MFP68901.cpp

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Adds a target for MFP read/write operations. Completely without any implementation, so far.
2019-10-07 03:14:05 +00:00
//
// MFP68901.cpp
// Clock Signal
//
// Created by Thomas Harte on 06/10/2019.
// Copyright © 2019 Thomas Harte. All rights reserved.
//
#include "MFP68901.hpp"
Makes an unsuccessful first attempt at some timer functionality.
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#include "../../Outputs/Log.hpp"
Adds a target for MFP read/write operations. Completely without any implementation, so far.
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using namespace Motorola::MFP68901;
uint8_t MFP68901::read(int address) {
Makes an unsuccessful first attempt at some timer functionality.
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address &= 0x1f;
switch(address) {
case 0x00: LOG("Read: general purpose IO"); break;
case 0x01: LOG("Read: active edge"); break;
case 0x02: LOG("Read: data direction"); break;
case 0x03: LOG("Read: interrupt enable A"); break;
case 0x04: LOG("Read: interrupt enable B"); break;
case 0x05: LOG("Read: interrupt pending A"); break;
case 0x06: LOG("Read: interrupt pending B"); break;
case 0x07: LOG("Read: interrupt in-service A"); break;
case 0x08: LOG("Read: interrupt in-service B"); break;
case 0x09: LOG("Read: interrupt mask A"); break;
case 0x0a: LOG("Read: interrupt mask B"); break;
case 0x0b: LOG("Read: vector"); break;
case 0x0c: LOG("Read: timer A control"); break;
case 0x0d: LOG("Read: timer B control"); break;
case 0x0e: LOG("Read: timers C/D control"); break;
case 0x0f: case 0x10: case 0x11: case 0x12:
return get_timer_data(address - 0xf);
case 0x13: LOG("Read: sync character generator"); break;
case 0x14: LOG("Read: USART control"); break;
case 0x15: LOG("Read: receiver status"); break;
case 0x16: LOG("Read: transmitter status"); break;
case 0x17: LOG("Read: USART data"); break;
}
Adds a target for MFP read/write operations. Completely without any implementation, so far.
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return 0xff;
}
void MFP68901::write(int address, uint8_t value) {
Makes an unsuccessful first attempt at some timer functionality.
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address &= 0x1f;
switch(address) {
case 0x00: LOG("Write: general purpose IO"); break;
case 0x01: LOG("Write: active edge"); break;
case 0x02: LOG("Write: data direction"); break;
case 0x03: LOG("Write: interrupt enable A"); break;
case 0x04: LOG("Write: interrupt enable B"); break;
case 0x05: LOG("Write: interrupt pending A"); break;
case 0x06: LOG("Write: interrupt pending B"); break;
case 0x07: LOG("Write: interrupt in-service A"); break;
case 0x08: LOG("Write: interrupt in-service B"); break;
case 0x09: LOG("Write: interrupt mask A"); break;
case 0x0a: LOG("Write: interrupt mask B"); break;
case 0x0b: LOG("Write: vector"); break;
case 0x0c:
case 0x0d: {
const auto timer = address - 0xc;
const bool reset = value & 0x10;
switch(value & 0xf) {
case 0x0: set_timer_mode(timer, TimerMode::Stopped, 0, reset); break;
case 0x1: set_timer_mode(timer, TimerMode::Delay, 4, reset); break;
case 0x2: set_timer_mode(timer, TimerMode::Delay, 10, reset); break;
case 0x3: set_timer_mode(timer, TimerMode::Delay, 16, reset); break;
case 0x4: set_timer_mode(timer, TimerMode::Delay, 50, reset); break;
case 0x5: set_timer_mode(timer, TimerMode::Delay, 64, reset); break;
case 0x6: set_timer_mode(timer, TimerMode::Delay, 100, reset); break;
case 0x7: set_timer_mode(timer, TimerMode::Delay, 200, reset); break;
case 0x8: set_timer_mode(timer, TimerMode::EventCount, 0, reset); break;
case 0x9: set_timer_mode(timer, TimerMode::PulseWidth, 4, reset); break;
case 0xa: set_timer_mode(timer, TimerMode::PulseWidth, 10, reset); break;
case 0xb: set_timer_mode(timer, TimerMode::PulseWidth, 16, reset); break;
case 0xc: set_timer_mode(timer, TimerMode::PulseWidth, 50, reset); break;
case 0xd: set_timer_mode(timer, TimerMode::PulseWidth, 64, reset); break;
case 0xe: set_timer_mode(timer, TimerMode::PulseWidth, 100, reset); break;
case 0xf: set_timer_mode(timer, TimerMode::PulseWidth, 200, reset); break;
}
} break;
case 0x0e:
switch(value & 7) {
case 0: set_timer_mode(3, TimerMode::Stopped, 0, false); break;
case 1: set_timer_mode(3, TimerMode::Delay, 4, false); break;
case 2: set_timer_mode(3, TimerMode::Delay, 10, false); break;
case 3: set_timer_mode(3, TimerMode::Delay, 16, false); break;
case 4: set_timer_mode(3, TimerMode::Delay, 50, false); break;
case 5: set_timer_mode(3, TimerMode::Delay, 64, false); break;
case 6: set_timer_mode(3, TimerMode::Delay, 100, false); break;
case 7: set_timer_mode(3, TimerMode::Delay, 200, false); break;
}
switch((value >> 4) & 7) {
case 0: set_timer_mode(2, TimerMode::Stopped, 0, false); break;
case 1: set_timer_mode(2, TimerMode::Delay, 4, false); break;
case 2: set_timer_mode(2, TimerMode::Delay, 10, false); break;
case 3: set_timer_mode(2, TimerMode::Delay, 16, false); break;
case 4: set_timer_mode(2, TimerMode::Delay, 50, false); break;
case 5: set_timer_mode(2, TimerMode::Delay, 64, false); break;
case 6: set_timer_mode(2, TimerMode::Delay, 100, false); break;
case 7: set_timer_mode(2, TimerMode::Delay, 200, false); break;
}
break;
case 0x0f: case 0x10: case 0x11: case 0x12:
set_timer_data(address - 0xf, value);
break;
case 0x13: LOG("Write: sync character generator"); break;
case 0x14: LOG("Write: USART control"); break;
case 0x15: LOG("Write: receiver status"); break;
case 0x16: LOG("Write: transmitter status"); break;
case 0x17: LOG("Write: USART data"); break;
}
Adds a target for MFP read/write operations. Completely without any implementation, so far.
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}
Makes an unsuccessful first attempt at some timer functionality.
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void MFP68901::run_for(HalfCycles time) {
cycles_left_ += time;
// TODO: this is the stupidest possible implementation. Improve.
int cycles = cycles_left_.flush<Cycles>().as_int();
while(cycles--) {
for(int c = 0; c < 4; ++c) {
if(timers_[c].mode >= TimerMode::Delay) {
--timers_[c].divisor;
if(!timers_[c].divisor) {
timers_[c].divisor = timers_[c].prescale;
Adds enough logic to advance to an ACIA access error.
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decrement_timer(c);
Makes an unsuccessful first attempt at some timer functionality.
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}
}
}
}
Adds a target for MFP read/write operations. Completely without any implementation, so far.
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}
HalfCycles MFP68901::get_next_sequence_point() {
return HalfCycles(-1);
}
Makes an unsuccessful first attempt at some timer functionality.
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// MARK: - Timers
void MFP68901::set_timer_mode(int timer, TimerMode mode, int prescale, bool reset_timer) {
timers_[timer].mode = mode;
timers_[timer].prescale = prescale;
if(reset_timer) {
timers_[timer].divisor = prescale;
timers_[timer].value = timers_[timer].reload_value;
}
}
void MFP68901::set_timer_data(int timer, uint8_t value) {
if(timers_[timer].mode == TimerMode::Stopped) {
timers_[timer].value = value;
}
timers_[timer].reload_value = value;
}
uint8_t MFP68901::get_timer_data(int timer) {
return timers_[timer].value;
}
Adds enough logic to advance to an ACIA access error.
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void MFP68901::set_timer_event_input(int channel, bool value) {
if(timers_[channel].event_input == value) return;
timers_[channel].event_input = value;
if(timers_[channel].mode == TimerMode::EventCount && !value) { /* TODO: which edge is counted? "as defined by the associated Interrupt Channels edge bit"? */
decrement_timer(channel);
}
}
void MFP68901::decrement_timer(int timer) {
--timers_[timer].value;
if(!timers_[timer].value) {
// TODO: interrupt. Reload, possibly.
}
}
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