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CLK/Machines/Commodore/Vic-20/Vic20.cpp

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//
// Vic20.cpp
// Clock Signal
//
// Created by Thomas Harte on 04/06/2016.
// Copyright © 2016 Thomas Harte. All rights reserved.
//
#include "Vic20.hpp"
#include <algorithm>
#include "../../../Storage/Tape/Formats/TapePRG.hpp"
#include "../../../StaticAnalyser/StaticAnalyser.hpp"
using namespace Commodore::Vic20;
Machine::Machine() :
_rom(nullptr),
_is_running_at_zero_cost(false),
_tape(1022727)
{
// create 6522s, serial port and bus
_userPortVIA.reset(new UserPortVIA);
_keyboardVIA.reset(new KeyboardVIA);
_serialPort.reset(new SerialPort);
_serialBus.reset(new ::Commodore::Serial::Bus);
// wire up the serial bus and serial port
Commodore::Serial::AttachPortAndBus(_serialPort, _serialBus);
// wire up 6522s and serial port
_userPortVIA->set_serial_port(_serialPort);
_keyboardVIA->set_serial_port(_serialPort);
_serialPort->set_user_port_via(_userPortVIA);
// wire up the 6522s, tape and machine
_userPortVIA->set_interrupt_delegate(this);
_keyboardVIA->set_interrupt_delegate(this);
_tape.set_delegate(this);
// establish the memory maps
set_memory_size(MemorySize::Default);
// set the NTSC clock rate
set_region(NTSC);
// _debugPort.reset(new ::Commodore::Serial::DebugPort);
// _debugPort->set_serial_bus(_serialBus);
// _serialBus->add_port(_debugPort);
}
void Machine::set_memory_size(MemorySize size)
{
memset(_processorReadMemoryMap, 0, sizeof(_processorReadMemoryMap));
memset(_processorWriteMemoryMap, 0, sizeof(_processorWriteMemoryMap));
switch(size)
{
default: break;
case ThreeKB:
write_to_map(_processorReadMemoryMap, _expansionRAM, 0x0000, 0x1000);
write_to_map(_processorWriteMemoryMap, _expansionRAM, 0x0000, 0x1000);
break;
case ThirtyTwoKB:
write_to_map(_processorReadMemoryMap, _expansionRAM, 0x0000, 0x8000);
write_to_map(_processorWriteMemoryMap, _expansionRAM, 0x0000, 0x8000);
break;
}
// install the system ROMs and VIC-visible memory
write_to_map(_processorReadMemoryMap, _userBASICMemory, 0x0000, sizeof(_userBASICMemory));
write_to_map(_processorReadMemoryMap, _screenMemory, 0x1000, sizeof(_screenMemory));
write_to_map(_processorReadMemoryMap, _colorMemory, 0x9400, sizeof(_colorMemory));
write_to_map(_processorReadMemoryMap, _characterROM, 0x8000, sizeof(_characterROM));
write_to_map(_processorReadMemoryMap, _basicROM, 0xc000, sizeof(_basicROM));
write_to_map(_processorReadMemoryMap, _kernelROM, 0xe000, sizeof(_kernelROM));
write_to_map(_processorWriteMemoryMap, _userBASICMemory, 0x0000, sizeof(_userBASICMemory));
write_to_map(_processorWriteMemoryMap, _screenMemory, 0x1000, sizeof(_screenMemory));
write_to_map(_processorWriteMemoryMap, _colorMemory, 0x9400, sizeof(_colorMemory));
// install the inserted ROM if there is one
if(_rom)
{
write_to_map(_processorReadMemoryMap, _rom, _rom_address, _rom_length);
}
}
void Machine::write_to_map(uint8_t **map, uint8_t *area, uint16_t address, uint16_t length)
{
address >>= 10;
length >>= 10;
while(length--)
{
map[address] = area;
area += 0x400;
address++;
}
}
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Machine::~Machine()
{
delete[] _rom;
}
unsigned int Machine::perform_bus_operation(CPU6502::BusOperation operation, uint16_t address, uint8_t *value)
{
// static int logCount = 0;
// if(operation == CPU6502::BusOperation::ReadOpcode && address == 0xf957) logCount = 500;
// if(operation == CPU6502::BusOperation::ReadOpcode && logCount) {
// logCount--;
// printf("%04x\n", address);
// }
// if(operation == CPU6502::BusOperation::Write && (address >= 0x033C && address < 0x033C + 192))
// {
// printf("\n[%04x] <- %02x\n", address, *value);
// }
// run the phase-1 part of this cycle, in which the VIC accesses memory
if(!_is_running_at_zero_cost) _mos6560->run_for_cycles(1);
// run the phase-2 part of the cycle, which is whatever the 6502 said it should be
if(isReadOperation(operation))
{
uint8_t result = _processorReadMemoryMap[address >> 10] ? _processorReadMemoryMap[address >> 10][address & 0x3ff] : 0xff;
if((address&0xfc00) == 0x9000)
{
if((address&0xff00) == 0x9000) result &= _mos6560->get_register(address);
if((address&0xfc10) == 0x9010) result &= _userPortVIA->get_register(address);
if((address&0xfc20) == 0x9020) result &= _keyboardVIA->get_register(address);
}
*value = result;
// This combined with the stuff below constitutes the fast tape hack. Performed here: if the
// PC hits the start of the loop that just waits for an interesting tape interrupt to have
// occurred then skip both 6522s and the tape ahead to the next interrupt without any further
// CPU or 6560 costs.
if(_use_fast_tape_hack && _tape.has_tape() && address == 0xf92f && operation == CPU6502::BusOperation::ReadOpcode)
{
while(!_userPortVIA->get_interrupt_line() && !_keyboardVIA->get_interrupt_line() && !_tape.get_tape()->is_at_end())
{
_userPortVIA->run_for_cycles(1);
_keyboardVIA->run_for_cycles(1);
_tape.run_for_cycles(1);
}
}
}
else
{
uint8_t *ram = _processorWriteMemoryMap[address >> 10];
if(ram) ram[address & 0x3ff] = *value;
if((address&0xfc00) == 0x9000)
{
if((address&0xff00) == 0x9000) _mos6560->set_register(address, *value);
if((address&0xfc10) == 0x9010) _userPortVIA->set_register(address, *value);
if((address&0xfc20) == 0x9020) _keyboardVIA->set_register(address, *value);
}
}
_userPortVIA->run_for_cycles(1);
_keyboardVIA->run_for_cycles(1);
if(_typer && operation == CPU6502::BusOperation::ReadOpcode && address == 0xEB1E)
{
if(!_typer->type_next_character())
{
clear_all_keys();
_typer.reset();
}
}
_tape.run_for_cycles(1);
if(_c1540) _c1540->run_for_cycles(1);
// If using fast tape then:
// if the PC hits 0xf98e, the ROM's tape loading routine, then begin zero cost processing;
// if the PC heads into RAM
//
// Where 'zero cost processing' is taken to be taking the 6560 off the bus (because I know it's
// expensive, and not relevant) then running the tape, the CPU and both 6522s as usual but not
// counting cycles towards the processing budget. So the limit is the host machine.
//
// Note the additional test above for PC hitting 0xf92f, which is a loop in the ROM that waits
// for an interesting interrupt. Up there the fast tape hack goes even further in also cutting
// the CPU out of the action.
if(_use_fast_tape_hack && _tape.has_tape())
{
if(address == 0xf98e && operation == CPU6502::BusOperation::ReadOpcode)
{
_is_running_at_zero_cost = true;
set_clock_is_unlimited(true);
}
if(
(address < 0xe000 && operation == CPU6502::BusOperation::ReadOpcode) ||
_tape.get_tape()->is_at_end()
)
{
_is_running_at_zero_cost = false;
set_clock_is_unlimited(false);
}
}
return 1;
}
#pragma mark - 6522 delegate
void Machine::mos6522_did_change_interrupt_status(void *mos6522)
{
set_nmi_line(_userPortVIA->get_interrupt_line());
set_irq_line(_keyboardVIA->get_interrupt_line());
}
#pragma mark - Setup
void Machine::set_region(Commodore::Vic20::Region region)
{
_region = region;
switch(region)
{
case PAL:
set_clock_rate(1108404);
if(_mos6560)
{
_mos6560->set_output_mode(MOS::MOS6560<Commodore::Vic20::Vic6560>::OutputMode::PAL);
_mos6560->set_clock_rate(1108404);
}
break;
case NTSC:
set_clock_rate(1022727);
if(_mos6560)
{
_mos6560->set_output_mode(MOS::MOS6560<Commodore::Vic20::Vic6560>::OutputMode::NTSC);
_mos6560->set_clock_rate(1022727);
}
break;
}
}
void Machine::setup_output(float aspect_ratio)
{
_mos6560.reset(new Vic6560());
_mos6560->get_speaker()->set_high_frequency_cut_off(1600); // There is a 1.6Khz low-pass filter in the Vic-20.
set_region(_region);
memset(_mos6560->_videoMemoryMap, 0, sizeof(_mos6560->_videoMemoryMap));
write_to_map(_mos6560->_videoMemoryMap, _characterROM, 0x0000, sizeof(_characterROM));
write_to_map(_mos6560->_videoMemoryMap, _userBASICMemory, 0x2000, sizeof(_userBASICMemory));
write_to_map(_mos6560->_videoMemoryMap, _screenMemory, 0x3000, sizeof(_screenMemory));
_mos6560->_colorMemory = _colorMemory;
}
void Machine::close_output()
{
_mos6560 = nullptr;
}
void Machine::set_rom(ROMSlot slot, size_t length, const uint8_t *data)
{
uint8_t *target = nullptr;
size_t max_length = 0x2000;
switch(slot)
{
case Kernel: target = _kernelROM; break;
case Characters: target = _characterROM; max_length = 0x1000; break;
case BASIC: target = _basicROM; break;
case Drive:
_driveROM.reset(new uint8_t[length]);
memcpy(_driveROM.get(), data, length);
install_disk_rom();
return;
}
if(target)
{
size_t length_to_copy = std::min(max_length, length);
memcpy(target, data, length_to_copy);
}
}
//void Machine::set_prg(const char *file_name, size_t length, const uint8_t *data)
//{
// if(length > 2)
// {
// _rom_address = (uint16_t)(data[0] | (data[1] << 8));
// _rom_length = (uint16_t)(length - 2);
//
// // install in the ROM area if this looks like a ROM; otherwise put on tape and throw into that mechanism
// if(_rom_address == 0xa000)
// {
// _rom = new uint8_t[0x2000];
// memcpy(_rom, &data[2], length - 2);
// write_to_map(_processorReadMemoryMap, _rom, _rom_address, 0x2000);
// }
// else
// {
// set_tape(std::shared_ptr<Storage::Tape::Tape>(new Storage::Tape::PRG(file_name)));
// }
// }
//}
#pragma mar - Tape
void Machine::configure_as_target(const StaticAnalyser::Target &target)
{
if(target.tapes.size())
{
_tape.set_tape(target.tapes.front());
}
if(target.disks.size())
{
// construct the 1540
_c1540.reset(new ::Commodore::C1540::Machine);
// attach it to the serial bus
_c1540->set_serial_bus(_serialBus);
// hand it the disk
_c1540->set_disk(target.disks.front());
// install the ROM if it was previously set
install_disk_rom();
}
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if(target.cartridges.size())
{
_rom_address = 0xa000;
std::vector<uint8_t> rom_image = target.cartridges.front()->get_segments().front().data;
_rom_length = (uint16_t)(rom_image.size());
_rom = new uint8_t[0x2000];
memcpy(_rom, rom_image.data(), rom_image.size());
write_to_map(_processorReadMemoryMap, _rom, _rom_address, 0x2000);
}
if(_should_automatically_load_media)
{
if(target.loadingCommand.length()) // TODO: and automatic loading option enabled
{
set_typer_for_string(target.loadingCommand.c_str());
}
switch(target.vic20.memory_model)
{
case StaticAnalyser::Vic20MemoryModel::Unexpanded:
set_memory_size(Default);
break;
case StaticAnalyser::Vic20MemoryModel::EightKB:
set_memory_size(ThreeKB);
break;
case StaticAnalyser::Vic20MemoryModel::ThirtyTwoKB:
set_memory_size(ThirtyTwoKB);
break;
}
}
}
void Machine::tape_did_change_input(Storage::Tape::BinaryTapePlayer *tape)
{
_keyboardVIA->set_control_line_input(KeyboardVIA::Port::A, KeyboardVIA::Line::One, tape->get_input());
}
#pragma mark - Disc
void Machine::install_disk_rom()
{
if(_driveROM && _c1540)
{
_c1540->set_rom(_driveROM.get());
_c1540->run_for_cycles(2000000);
_driveROM.reset();
}
}
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#pragma mark - UserPortVIA
uint8_t UserPortVIA::get_port_input(Port port)
{
if(!port)
{
return _portA; // TODO: bit 6 should be high if there is no tape, low otherwise
}
return 0xff;
}
void UserPortVIA::set_control_line_output(Port port, Line line, bool value)
{
// if(port == Port::A && line == Line::Two) {
// printf("Tape motor %s\n", value ? "on" : "off");
// }
}
void UserPortVIA::set_serial_line_state(::Commodore::Serial::Line line, bool value)
{
switch(line)
{
default: break;
case ::Commodore::Serial::Line::Data: _portA = (_portA & ~0x02) | (value ? 0x02 : 0x00); break;
case ::Commodore::Serial::Line::Clock: _portA = (_portA & ~0x01) | (value ? 0x01 : 0x00); break;
}
}
void UserPortVIA::set_joystick_state(JoystickInput input, bool value)
{
if(input != JoystickInput::Right)
{
_portA = (_portA & ~input) | (value ? 0 : input);
}
}
void UserPortVIA::set_port_output(Port port, uint8_t value, uint8_t mask)
{
// Line 7 of port A is inverted and output as serial ATN
if(!port)
{
std::shared_ptr<::Commodore::Serial::Port> serialPort = _serialPort.lock();
if(serialPort)
serialPort->set_output(::Commodore::Serial::Line::Attention, (::Commodore::Serial::LineLevel)!(value&0x80));
}
}
UserPortVIA::UserPortVIA() : _portA(0xbf) {}
void UserPortVIA::set_serial_port(std::shared_ptr<::Commodore::Serial::Port> serialPort)
{
_serialPort = serialPort;
}
#pragma mark - KeyboardVIA
KeyboardVIA::KeyboardVIA() : _portB(0xff)
{
clear_all_keys();
}
void KeyboardVIA::set_key_state(uint16_t key, bool isPressed)
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{
if(isPressed)
_columns[key & 7] &= ~(key >> 3);
else
_columns[key & 7] |= (key >> 3);
}
void KeyboardVIA::clear_all_keys()
{
memset(_columns, 0xff, sizeof(_columns));
}
uint8_t KeyboardVIA::get_port_input(Port port)
{
if(!port)
{
uint8_t result = 0xff;
for(int c = 0; c < 8; c++)
{
if(!(_activation_mask&(1 << c)))
result &= _columns[c];
}
return result;
}
return _portB;
}
void KeyboardVIA::set_port_output(Port port, uint8_t value, uint8_t mask)
{
if(port)
_activation_mask = (value & mask) | (~mask);
}
void KeyboardVIA::set_control_line_output(Port port, Line line, bool value)
{
if(line == Line::Two)
{
std::shared_ptr<::Commodore::Serial::Port> serialPort = _serialPort.lock();
if(serialPort)
{
// CB2 is inverted to become serial data; CA2 is inverted to become serial clock
if(port == Port::A)
serialPort->set_output(::Commodore::Serial::Line::Clock, (::Commodore::Serial::LineLevel)!value);
else
serialPort->set_output(::Commodore::Serial::Line::Data, (::Commodore::Serial::LineLevel)!value);
}
}
}
void KeyboardVIA::set_joystick_state(JoystickInput input, bool value)
{
if(input == JoystickInput::Right)
{
_portB = (_portB & ~input) | (value ? 0 : input);
}
}
void KeyboardVIA::set_serial_port(std::shared_ptr<::Commodore::Serial::Port> serialPort)
{
_serialPort = serialPort;
}
#pragma mark - SerialPort
void SerialPort::set_input(::Commodore::Serial::Line line, ::Commodore::Serial::LineLevel level)
{
std::shared_ptr<UserPortVIA> userPortVIA = _userPortVIA.lock();
if(userPortVIA) userPortVIA->set_serial_line_state(line, (bool)level);
}
void SerialPort::set_user_port_via(std::shared_ptr<UserPortVIA> userPortVIA)
{
_userPortVIA = userPortVIA;
}