1
0
mirror of https://github.com/TomHarte/CLK.git synced 2024-11-19 23:32:28 +00:00
CLK/Machines/Oric/Oric.cpp

267 lines
5.9 KiB
C++

//
// Oric.cpp
// Clock Signal
//
// Created by Thomas Harte on 11/10/2016.
// Copyright © 2016 Thomas Harte. All rights reserved.
//
#include "Oric.hpp"
#include "../MemoryFuzzer.hpp"
using namespace Oric;
Machine::Machine() :
_cycles_since_video_update(0),
_use_fast_tape_hack(false),
_typer_delay(2500000),
_keyboard_read_count(0)
{
set_clock_rate(1000000);
_via.set_interrupt_delegate(this);
_keyboard.reset(new Keyboard);
_via.keyboard = _keyboard;
clear_all_keys();
_via.tape->set_delegate(this);
Memory::Fuzz(_ram, sizeof(_ram));
}
void Machine::configure_as_target(const StaticAnalyser::Target &target)
{
if(target.tapes.size())
{
_via.tape->set_tape(target.tapes.front());
}
if(target.loadingCommand.length()) // TODO: and automatic loading option enabled
{
set_typer_for_string(target.loadingCommand.c_str());
}
if(target.oric.use_atmos_rom)
{
memcpy(_rom, _basic11.data(), std::min(_basic11.size(), sizeof(_rom)));
_is_using_basic11 = true;
_tape_get_byte_address = 0xe6c9;
_scan_keyboard_address = 0xf495;
_tape_speed_address = 0x024d;
}
else
{
memcpy(_rom, _basic10.data(), std::min(_basic10.size(), sizeof(_rom)));
_is_using_basic11 = false;
_tape_get_byte_address = 0xe630;
_scan_keyboard_address = 0xf43c;
_tape_speed_address = 0x67;
}
}
void Machine::set_rom(ROM rom, const std::vector<uint8_t> &data)
{
if(rom == BASIC11) _basic11 = std::move(data); else _basic10 = std::move(data);
}
unsigned int Machine::perform_bus_operation(CPU6502::BusOperation operation, uint16_t address, uint8_t *value)
{
if(address >= 0xc000)
{
if(isReadOperation(operation)) *value = _rom[address&16383];
// 024D = 0 => fast; otherwise slow
// E6C9 = read byte: return byte in A
if(address == _tape_get_byte_address && _use_fast_tape_hack && operation == CPU6502::BusOperation::ReadOpcode && _via.tape->has_tape() && !_via.tape->get_tape()->is_at_end())
{
uint8_t next_byte = _via.tape->get_next_byte(!_ram[_tape_speed_address]);
set_value_of_register(CPU6502::A, next_byte);
set_value_of_register(CPU6502::Flags, next_byte ? 0 : CPU6502::Flag::Zero);
*value = 0x60; // i.e. RTS
}
}
else
{
if((address & 0xff00) == 0x0300)
{
if(isReadOperation(operation)) *value = _via.get_register(address);
else _via.set_register(address, *value);
}
else
{
if(isReadOperation(operation))
*value = _ram[address];
else
{
if(address >= 0x9800) { update_video(); _typer_delay = 0; }
_ram[address] = *value;
}
}
}
if(_typer && address == _scan_keyboard_address && operation == CPU6502::BusOperation::ReadOpcode)
{
// the Oric 1 misses any key pressed on the very first entry into the read keyboard routine, so don't
// do anything until at least the second, regardless of machine
if(!_keyboard_read_count) _keyboard_read_count++;
else if(!_typer->type_next_character())
{
clear_all_keys();
_typer.reset();
}
}
_via.run_for_cycles(1);
_cycles_since_video_update++;
return 1;
}
void Machine::synchronise()
{
update_video();
_via.synchronise();
}
void Machine::update_video()
{
_videoOutput->run_for_cycles(_cycles_since_video_update);
_cycles_since_video_update = 0;
}
void Machine::setup_output(float aspect_ratio)
{
_videoOutput.reset(new VideoOutput(_ram));
_via.ay8910.reset(new GI::AY38910());
_via.ay8910->set_clock_rate(1000000);
}
void Machine::close_output()
{
_videoOutput.reset();
_via.ay8910.reset();
}
void Machine::mos6522_did_change_interrupt_status(void *mos6522)
{
set_irq_line(_via.get_interrupt_line());
}
void Machine::set_key_state(uint16_t key, bool isPressed)
{
if(key == KeyNMI)
{
set_nmi_line(isPressed);
}
else
{
if(isPressed)
_keyboard->rows[key >> 8] |= (key & 0xff);
else
_keyboard->rows[key >> 8] &= ~(key & 0xff);
}
}
void Machine::clear_all_keys()
{
memset(_keyboard->rows, 0, sizeof(_keyboard->rows));
}
void Machine::set_use_fast_tape_hack(bool activate)
{
_use_fast_tape_hack = activate;
}
void Machine::tape_did_change_input(Storage::Tape::BinaryTapePlayer *tape_player)
{
// set CB1
_via.set_control_line_input(VIA::Port::B, VIA::Line::One, tape_player->get_input());
}
std::shared_ptr<Outputs::CRT::CRT> Machine::get_crt()
{
return _videoOutput->get_crt();
}
std::shared_ptr<Outputs::Speaker> Machine::get_speaker()
{
return _via.ay8910;
}
void Machine::run_for_cycles(int number_of_cycles)
{
CPU6502::Processor<Machine>::run_for_cycles(number_of_cycles);
}
#pragma mark - The 6522
Machine::VIA::VIA() :
MOS::MOS6522<Machine::VIA>(),
_cycles_since_ay_update(0),
tape(new TapePlayer) {}
void Machine::VIA::set_control_line_output(Port port, Line line, bool value)
{
if(line)
{
if(port) _ay_bdir = value; else _ay_bc1 = value;
update_ay();
}
}
void Machine::VIA::set_port_output(Port port, uint8_t value, uint8_t direction_mask)
{
if(port)
{
keyboard->row = value;
tape->set_motor_control(value & 0x40);
}
else
{
ay8910->set_data_input(value);
}
}
uint8_t Machine::VIA::get_port_input(Port port)
{
if(port)
{
uint8_t column = ay8910->get_port_output(false) ^ 0xff;
return (keyboard->rows[keyboard->row & 7] & column) ? 0x08 : 0x00;
}
else
{
return ay8910->get_data_output();
}
}
void Machine::VIA::synchronise()
{
ay8910->run_for_cycles(_cycles_since_ay_update);
ay8910->flush();
_cycles_since_ay_update = 0;
}
void Machine::VIA::run_for_cycles(unsigned int number_of_cycles)
{
_cycles_since_ay_update += number_of_cycles;
MOS::MOS6522<VIA>::run_for_cycles(number_of_cycles);
tape->run_for_cycles((int)number_of_cycles);
}
void Machine::VIA::update_ay()
{
ay8910->run_for_cycles(_cycles_since_ay_update);
_cycles_since_ay_update = 0;
ay8910->set_control_lines( (GI::AY38910::ControlLines)((_ay_bdir ? GI::AY38910::BCDIR : 0) | (_ay_bc1 ? GI::AY38910::BC1 : 0) | GI::AY38910::BC2));
}
#pragma mark - TapePlayer
Machine::TapePlayer::TapePlayer() :
Storage::Tape::BinaryTapePlayer(1000000)
{}
uint8_t Machine::TapePlayer::get_next_byte(bool fast)
{
return (uint8_t)_parser.get_next_byte(get_tape(), fast);
}