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CLK/Components/6522/Implementation/6522Base.cpp

117 lines
3.2 KiB
C++

//
// 6522Base.cpp
// Clock Signal
//
// Created by Thomas Harte on 04/09/2017.
// Copyright © 2017 Thomas Harte. All rights reserved.
//
#include "../6522.hpp"
using namespace MOS::MOS6522;
void MOS6522Base::set_control_line_input(Port port, Line line, bool value) {
switch(line) {
case Line::One:
if( value != control_inputs_[port].line_one &&
value == !!(registers_.peripheral_control & (port ? 0x10 : 0x01))
) {
registers_.interrupt_flags |= port ? InterruptFlag::CB1ActiveEdge : InterruptFlag::CA1ActiveEdge;
reevaluate_interrupts();
}
control_inputs_[port].line_one = value;
break;
case Line::Two:
// TODO: output modes, but probably elsewhere?
if( value != control_inputs_[port].line_two && // i.e. value has changed ...
!(registers_.peripheral_control & (port ? 0x80 : 0x08)) && // ... and line is input ...
value == !!(registers_.peripheral_control & (port ? 0x40 : 0x04)) // ... and it's either high or low, as required
) {
registers_.interrupt_flags |= port ? InterruptFlag::CB2ActiveEdge : InterruptFlag::CA2ActiveEdge;
reevaluate_interrupts();
}
control_inputs_[port].line_two = value;
break;
}
}
void MOS6522Base::do_phase2() {
registers_.last_timer[0] = registers_.timer[0];
registers_.last_timer[1] = registers_.timer[1];
if(registers_.timer_needs_reload) {
registers_.timer_needs_reload = false;
registers_.timer[0] = registers_.timer_latch[0];
} else {
registers_.timer[0] --;
}
registers_.timer[1] --;
if(registers_.next_timer[0] >= 0) {
registers_.timer[0] = static_cast<uint16_t>(registers_.next_timer[0]);
registers_.next_timer[0] = -1;
}
if(registers_.next_timer[1] >= 0) {
registers_.timer[1] = static_cast<uint16_t>(registers_.next_timer[1]);
registers_.next_timer[1] = -1;
}
}
void MOS6522Base::do_phase1() {
// IRQ is raised on the half cycle after overflow
if((registers_.timer[1] == 0xffff) && !registers_.last_timer[1] && timer_is_running_[1]) {
timer_is_running_[1] = false;
registers_.interrupt_flags |= InterruptFlag::Timer2;
reevaluate_interrupts();
}
if((registers_.timer[0] == 0xffff) && !registers_.last_timer[0] && timer_is_running_[0]) {
registers_.interrupt_flags |= InterruptFlag::Timer1;
reevaluate_interrupts();
if(registers_.auxiliary_control&0x40)
registers_.timer_needs_reload = true;
else
timer_is_running_[0] = false;
}
}
/*! Runs for a specified number of half cycles. */
void MOS6522Base::run_for(const HalfCycles half_cycles) {
int number_of_half_cycles = half_cycles.as_int();
if(is_phase2_) {
do_phase2();
number_of_half_cycles--;
}
while(number_of_half_cycles >= 2) {
do_phase1();
do_phase2();
number_of_half_cycles -= 2;
}
if(number_of_half_cycles) {
do_phase1();
is_phase2_ = true;
} else {
is_phase2_ = false;
}
}
/*! Runs for a specified number of cycles. */
void MOS6522Base::run_for(const Cycles cycles) {
int number_of_cycles = cycles.as_int();
while(number_of_cycles--) {
do_phase1();
do_phase2();
}
}
/*! @returns @c true if the IRQ line is currently active; @c false otherwise. */
bool MOS6522Base::get_interrupt_line() {
uint8_t interrupt_status = registers_.interrupt_flags & registers_.interrupt_enable & 0x7f;
return !!interrupt_status;
}