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CLK/Processors/Z80/Z80AllRAM.cpp

104 lines
2.7 KiB
C++

//
// Z80AllRAM.cpp
// Clock Signal
//
// Created by Thomas Harte on 16/05/2017.
// Copyright © 2017 Thomas Harte. All rights reserved.
//
#include "Z80AllRAM.hpp"
#include <algorithm>
using namespace CPU::Z80;
namespace {
class ConcreteAllRAMProcessor: public AllRAMProcessor, public Processor<ConcreteAllRAMProcessor> {
public:
ConcreteAllRAMProcessor() : AllRAMProcessor() {}
inline Cycles perform_machine_cycle(const PartialMachineCycle &cycle) {
timestamp_ += cycle.length.as_int();
if(!cycle.is_terminal()) {
return Cycles(0);
}
uint16_t address = cycle.address ? *cycle.address : 0x0000;
switch(cycle.operation) {
case PartialMachineCycle::ReadOpcodeStart:
check_address_for_trap(address);
case PartialMachineCycle::Read:
*cycle.value = memory_[address];
break;
case PartialMachineCycle::Write:
memory_[address] = *cycle.value;
break;
case PartialMachineCycle::Output:
break;
case PartialMachineCycle::Input:
// This logic is selected specifically because it seems to match
// the FUSE unit tests. It might need factoring out.
*cycle.value = address >> 8;
break;
case PartialMachineCycle::Internal:
case PartialMachineCycle::Refresh:
break;
case PartialMachineCycle::Interrupt:
// A pick that means LD HL, (nn) if interpreted as an instruction but is otherwise
// arbitrary.
*cycle.value = 0x21;
break;
default:
printf("???\n");
break;
}
if(delegate_ != nullptr) {
delegate_->z80_all_ram_processor_did_perform_bus_operation(*this, cycle.operation, address, cycle.value ? *cycle.value : 0x00, timestamp_);
}
return Cycles(0);
}
void run_for(const Cycles &cycles) {
CPU::Z80::Processor<ConcreteAllRAMProcessor>::run_for(cycles);
}
uint16_t get_value_of_register(Register r) {
return CPU::Z80::Processor<ConcreteAllRAMProcessor>::get_value_of_register(r);
}
void set_value_of_register(Register r, uint16_t value) {
CPU::Z80::Processor<ConcreteAllRAMProcessor>::set_value_of_register(r, value);
}
bool get_halt_line() {
return CPU::Z80::Processor<ConcreteAllRAMProcessor>::get_halt_line();
}
void reset_power_on() {
return CPU::Z80::Processor<ConcreteAllRAMProcessor>::reset_power_on();
}
void set_interrupt_line(bool value) {
CPU::Z80::Processor<ConcreteAllRAMProcessor>::set_interrupt_line(value);
}
void set_non_maskable_interrupt_line(bool value) {
CPU::Z80::Processor<ConcreteAllRAMProcessor>::set_non_maskable_interrupt_line(value);
}
void set_wait_line(bool value) {
CPU::Z80::Processor<ConcreteAllRAMProcessor>::set_wait_line(value);
}
};
}
AllRAMProcessor *AllRAMProcessor::Processor() {
return new ConcreteAllRAMProcessor;
}