1
0
mirror of https://github.com/TomHarte/CLK.git synced 2024-11-07 19:05:38 +00:00
CLK/Machines/Utility/MachineForTarget.cpp

136 lines
5.5 KiB
C++
Raw Normal View History

//
// MachineForTarget.cpp
// Clock Signal
//
// Created by Thomas Harte on 04/11/2017.
// Copyright © 2017 Thomas Harte. All rights reserved.
//
#include "MachineForTarget.hpp"
#include "../AmstradCPC/AmstradCPC.hpp"
#include "../Atari2600/Atari2600.hpp"
#include "../ColecoVision/ColecoVision.hpp"
#include "../Commodore/Vic-20/Vic20.hpp"
#include "../Electron/Electron.hpp"
#include "../MSX/MSX.hpp"
#include "../Oric/Oric.hpp"
#include "../ZX8081/ZX8081.hpp"
#include "../../Analyser/Dynamic/MultiMachine/MultiMachine.hpp"
#include "TypedDynamicMachine.hpp"
namespace {
::Machine::DynamicMachine *MachineForTarget(const Analyser::Static::Target *target, const ROMMachine::ROMFetcher &rom_fetcher, Machine::Error &error) {
error = Machine::Error::None;
::Machine::DynamicMachine *machine = nullptr;
switch(target->machine) {
case Analyser::Machine::AmstradCPC: machine = new Machine::TypedDynamicMachine<AmstradCPC::Machine>(AmstradCPC::Machine::AmstradCPC()); break;
case Analyser::Machine::Atari2600: machine = new Machine::TypedDynamicMachine<Atari2600::Machine>(Atari2600::Machine::Atari2600()); break;
case Analyser::Machine::ColecoVision: machine = new Machine::TypedDynamicMachine<Coleco::Vision::Machine>(Coleco::Vision::Machine::ColecoVision()); break;
case Analyser::Machine::Electron: machine = new Machine::TypedDynamicMachine<Electron::Machine>(Electron::Machine::Electron()); break;
case Analyser::Machine::MSX: machine = new Machine::TypedDynamicMachine<MSX::Machine>(MSX::Machine::MSX()); break;
case Analyser::Machine::Oric: machine = new Machine::TypedDynamicMachine<Oric::Machine>(Oric::Machine::Oric()); break;
case Analyser::Machine::Vic20: machine = new Machine::TypedDynamicMachine<Commodore::Vic20::Machine>(Commodore::Vic20::Machine::Vic20()); break;
case Analyser::Machine::ZX8081: machine = new Machine::TypedDynamicMachine<ZX8081::Machine>(ZX8081::Machine::ZX8081(target)); break;
default:
error = Machine::Error::UnknownMachine;
return nullptr;
}
// TODO: this shouldn't depend on CRT machine's inclusion of ROM machine.
CRTMachine::Machine *crt_machine = machine->crt_machine();
if(crt_machine) {
if(!machine->crt_machine()->set_rom_fetcher(rom_fetcher)) {
delete machine;
error = Machine::Error::MissingROM;
return nullptr;
}
}
ConfigurationTarget::Machine *configuration_target = machine->configuration_target();
if(configuration_target) {
machine->configuration_target()->configure_as_target(target);
}
return machine;
}
}
::Machine::DynamicMachine *::Machine::MachineForTargets(const std::vector<std::unique_ptr<Analyser::Static::Target>> &targets, const ROMMachine::ROMFetcher &rom_fetcher, Error &error) {
// Zero targets implies no machine.
if(targets.empty()) {
error = Error::NoTargets;
return nullptr;
}
// If there's more than one target, get all the machines and combine them into a multimachine.
if(targets.size() > 1) {
std::vector<std::unique_ptr<Machine::DynamicMachine>> machines;
for(const auto &target: targets) {
machines.emplace_back(MachineForTarget(target.get(), rom_fetcher, error));
// Exit early if any errors have occurred.
if(error != Error::None) {
return nullptr;
}
}
// If a multimachine would just instantly collapse the list to a single machine, do
// so without the ongoing baggage of a multimachine.
if(Analyser::Dynamic::MultiMachine::would_collapse(machines)) {
return machines.front().release();
} else {
return new Analyser::Dynamic::MultiMachine(std::move(machines));
}
}
// There's definitely exactly one target.
return MachineForTarget(targets.front().get(), rom_fetcher, error);
}
std::string Machine::ShortNameForTargetMachine(const Analyser::Machine machine) {
switch(machine) {
case Analyser::Machine::AmstradCPC: return "AmstradCPC";
case Analyser::Machine::Atari2600: return "Atari2600";
case Analyser::Machine::ColecoVision: return "ColecoVision";
case Analyser::Machine::Electron: return "Electron";
case Analyser::Machine::MSX: return "MSX";
case Analyser::Machine::Oric: return "Oric";
case Analyser::Machine::Vic20: return "Vic20";
case Analyser::Machine::ZX8081: return "ZX8081";
default: return "";
}
}
std::string Machine::LongNameForTargetMachine(Analyser::Machine machine) {
switch(machine) {
case Analyser::Machine::AmstradCPC: return "Amstrad CPC";
case Analyser::Machine::Atari2600: return "Atari 2600";
case Analyser::Machine::ColecoVision: return "ColecoVision";
case Analyser::Machine::Electron: return "Acorn Electron";
case Analyser::Machine::MSX: return "MSX";
case Analyser::Machine::Oric: return "Oric";
case Analyser::Machine::Vic20: return "Vic 20";
case Analyser::Machine::ZX8081: return "ZX80/81";
default: return "";
}
}
std::map<std::string, std::vector<std::unique_ptr<Configurable::Option>>> Machine::AllOptionsByMachineName() {
std::map<std::string, std::vector<std::unique_ptr<Configurable::Option>>> options;
options.emplace(std::make_pair(LongNameForTargetMachine(Analyser::Machine::Electron), Electron::get_options()));
options.emplace(std::make_pair(LongNameForTargetMachine(Analyser::Machine::MSX), MSX::get_options()));
options.emplace(std::make_pair(LongNameForTargetMachine(Analyser::Machine::Oric), Oric::get_options()));
options.emplace(std::make_pair(LongNameForTargetMachine(Analyser::Machine::Vic20), Commodore::Vic20::get_options()));
options.emplace(std::make_pair(LongNameForTargetMachine(Analyser::Machine::ZX8081), ZX8081::get_options()));
return options;
}