src/main/java/gamax92/ocsymon/SymonArchitecture.java - minecraft/thistle - Rivoreo Source Code Repositories

 package gamax92.ocsymon;

 import gamax92.ocsymon.devices.Bank;

 import java.util.ArrayList;

 import li.cil.oc.Settings;
 import li.cil.oc.api.Driver;
 import li.cil.oc.api.machine.Architecture;
 import li.cil.oc.api.machine.ExecutionResult;
 import li.cil.oc.api.machine.Machine;
 import li.cil.oc.api.machine.Signal;
 import li.cil.oc.server.PacketSender;
 import net.minecraft.item.ItemStack;
 import net.minecraft.nbt.NBTTagCompound;

 import com.loomcom.symon.Cpu;
 import com.loomcom.symon.devices.Acia;
 import com.loomcom.symon.devices.Memory;

 @Architecture.Name("6502 Symon")
 public class SymonArchitecture implements Architecture {
 	private final Machine machine;

 	private SymonVM vm;
 	private ConsoleDriver console;

 	private boolean initialized = false;

 	/** The constructor must have exactly this signature. */
 	public SymonArchitecture(Machine machine) {
 		this.machine = machine;
 	}

 	@Override
 	public boolean isInitialized() {
 		return initialized;
 	}

 	private static int calculateMemory(Iterable<ItemStack> components) {
 		int memory = 0;
 		for (ItemStack component : components) {
 			if (Driver.driverFor(component) instanceof li.cil.oc.api.driver.item.Memory) {
 				li.cil.oc.api.driver.item.Memory memdrv = (li.cil.oc.api.driver.item.Memory) Driver.driverFor(component);
 				memory += memdrv.amount(component) * 1024;
 			}
 		}
 		return Math.min(Math.max(memory, 0), Settings.get().maxTotalRam());
 	}

 	@Override
 	public boolean recomputeMemory(Iterable<ItemStack> components) {
 		int memory = calculateMemory(components);
 		if (vm != null) // OpenComputers, why are you calling this before initialize?
 			((SymonMachine) vm.simulator.machine).getBank().resize(memory);
 		return true;
 	}

 	@Override
 	public boolean initialize() {
 		// Set up new VM here
 		console = new ConsoleDriver(machine);
 		vm = new SymonVM();
 		vm.simulator.console = console;
 		((SymonMachine) vm.simulator.machine).getBank().init(calculateMemory(machine.host().internalComponents()));
 		initialized = true;
 		return true;
 	}

 	@Override
 	public void close() {
 		vm = null;
 	}

 	@Override
 	public ExecutionResult runThreaded(boolean isSynchronizedReturn) {
 		try {
 			if (!isSynchronizedReturn) {
 				// Since our machine is a memory mapped one, parse signals here
 				// TODO: Signal device
 				Signal signal = null;
 				while (true) {
 					signal = machine.popSignal();
 					if (signal != null) {
 						if (signal.name().equals("key_down")) {
 							int character = (int) (double) (Double) signal.args()[1]; // castception
 							if (character != 0) // Not a character
 								console.pushChar(character);
 						} else if (signal.name().equals("clipboard")) {
 							char[] paste = ((String) signal.args()[1]).toCharArray();
 							for (char character : paste)
 								console.pushChar(character);
 						}
 						((SymonMachine) vm.simulator.machine).getSigDev().queue(signal.name(), signal.args());
 					} else
 						break;
 				}
 			}
 			vm.run();
 			console.flush();

 			return new ExecutionResult.Sleep(0);
 		} catch (Throwable t) {
 			t.printStackTrace();
 			return new ExecutionResult.Error(t.toString());
 		}
 	}

 	@Override
 	public void runSynchronized() {
 		try {
 			vm.run();
 			console.flush();
 		} catch (Exception e) {
 			// TODO Auto-generated catch block
 			e.printStackTrace();
 		}
 	}

 	@Override
 	public void onSignal() {
 	}

 	@Override
 	public void onConnect() {
 		try {
 			PacketSender.sendSound(machine.host().world(), machine.host().xPosition(), machine.host().yPosition(), machine.host().zPosition(), ".");
 		} catch (Throwable e) {
 		}
 	}

 	// TODO: Needs more things
 	@Override
 	public void load(NBTTagCompound nbt) {
 		// Restore Machine

 		// Restore Acia
 		if (nbt.hasKey("acia")) {
 			Acia mACIA = vm.simulator.machine.getAcia();
 			NBTTagCompound aciaTag = nbt.getCompoundTag("acia");
 			mACIA.setBaudRate(aciaTag.getInteger("baudRate"));
 		}

 		// Restore Cpu
 		if (nbt.hasKey("cpu")) {
 			Cpu mCPU = vm.simulator.machine.getCpu();
 			NBTTagCompound cpuTag = nbt.getCompoundTag("cpu");
 			mCPU.setAccumulator(cpuTag.getInteger("rA"));
 			mCPU.setProcessorStatus(cpuTag.getInteger("rP"));
 			mCPU.setProgramCounter(cpuTag.getInteger("rPC"));
 			mCPU.setStackPointer(cpuTag.getInteger("rSP"));
 			mCPU.setXRegister(cpuTag.getInteger("rX"));
 			mCPU.setYRegister(cpuTag.getInteger("rY"));
 		}

 		// Restore Ram
 		if (nbt.hasKey("ram")) {
 			Memory mRAM = vm.simulator.machine.getRam();
 			NBTTagCompound ramTag = nbt.getCompoundTag("ram");
 			int[] mem = ramTag.getIntArray("mem");
 			System.arraycopy(mem, 0, mRAM.getDmaAccess(), 0, mem.length);
 		}

 		// Restore Rom
 		if (nbt.hasKey("rom")) {
 			Memory mROM = vm.simulator.machine.getRom();
 			NBTTagCompound romTag = nbt.getCompoundTag("rom");
 			int[] mem = romTag.getIntArray("mem");
 			System.arraycopy(mem, 0, mROM.getDmaAccess(), 0, mem.length);
 		}

 		// Restore Banked Ram
 		if (nbt.hasKey("bank")) {
 			Bank mBANK = ((SymonMachine) vm.simulator.machine).getBank();
 			NBTTagCompound bankTag = nbt.getCompoundTag("bank");
 			mBANK.setBank(bankTag.getInteger("bank"));
 			mBANK.setBankSize(bankTag.getInteger("bankSize"));
 			mBANK.setMemsize(bankTag.getInteger("size"));
 			int[] mem = bankTag.getIntArray("mem");
 			ArrayList<Integer> almem = mBANK.getDmaAccess();
 			almem.clear();
 			for (int v : mem)
 				almem.add(v);
 		}

 		this.console.load(nbt);
 	}

 	// TODO: Needs more things
 	@Override
 	public void save(NBTTagCompound nbt) {
 		// Persist Machine

 		// Persist Acia
 		Acia mACIA = vm.simulator.machine.getAcia();
 		if (mACIA != null) {
 			NBTTagCompound aciaTag = new NBTTagCompound();
 			aciaTag.setInteger("baudRate", mACIA.getBaudRate());
 			nbt.setTag("acia", aciaTag);
 		}

 		// Persist Cpu
 		Cpu mCPU = vm.simulator.machine.getCpu();
 		if (mCPU != null) {
 			NBTTagCompound cpuTag = new NBTTagCompound();
 			cpuTag.setInteger("rA", mCPU.getAccumulator());
 			cpuTag.setInteger("rP", mCPU.getProcessorStatus());
 			cpuTag.setInteger("rPC", mCPU.getProgramCounter());
 			cpuTag.setInteger("rSP", mCPU.getStackPointer());
 			cpuTag.setInteger("rX", mCPU.getXRegister());
 			cpuTag.setInteger("rY", mCPU.getYRegister());
 			nbt.setTag("cpu", cpuTag);
 		}

 		// Persist Ram
 		Memory mRAM = vm.simulator.machine.getRam();
 		if (mRAM != null) {
 			NBTTagCompound ramTag = new NBTTagCompound();
 			int[] mem = mRAM.getDmaAccess();
 			ramTag.setIntArray("mem", mem);
 			nbt.setTag("ram", ramTag);
 		}

 		// Persist Rom
 		Memory mROM = vm.simulator.machine.getRom();
 		if (mROM != null) {
 			NBTTagCompound romTag = new NBTTagCompound();
 			int[] mem = mROM.getDmaAccess();
 			romTag.setIntArray("mem", mem);
 			nbt.setTag("rom", romTag);
 		}

 		// Persist Banked Ram
 		Bank mBANK = ((SymonMachine) vm.simulator.machine).getBank();
 		if (mBANK != null) {
 			NBTTagCompound bankTag = new NBTTagCompound();
 			bankTag.setInteger("bank", mBANK.getBank());
 			bankTag.setInteger("bankSize", mBANK.getBankSize());
 			bankTag.setInteger("size", mBANK.getMemsize());
 			ArrayList<Integer> almem = mBANK.getDmaAccess();
 			int mem[] = new int[almem.size()];
 			int i = 0;
 			for (int v : almem)
 				mem[i++] = v;
 			bankTag.setIntArray("mem", mem);
 			nbt.setTag("bank", bankTag);
 		}

 		this.console.save(nbt);
 	}
 }
	package gamax92.ocsymon;

	import gamax92.ocsymon.devices.Bank;

	import java.util.ArrayList;

	import li.cil.oc.Settings;
	import li.cil.oc.api.Driver;
	import li.cil.oc.api.machine.Architecture;
	import li.cil.oc.api.machine.ExecutionResult;
	import li.cil.oc.api.machine.Machine;
	import li.cil.oc.api.machine.Signal;
	import li.cil.oc.server.PacketSender;
	import net.minecraft.item.ItemStack;
	import net.minecraft.nbt.NBTTagCompound;

	import com.loomcom.symon.Cpu;
	import com.loomcom.symon.devices.Acia;
	import com.loomcom.symon.devices.Memory;

	@Architecture.Name("6502 Symon")
	public class SymonArchitecture implements Architecture {
	private final Machine machine;

	private SymonVM vm;
	private ConsoleDriver console;

	private boolean initialized = false;

	/** The constructor must have exactly this signature. */
	public SymonArchitecture(Machine machine) {
	this.machine = machine;
	}

	@Override
	public boolean isInitialized() {
	return initialized;
	}

	private static int calculateMemory(Iterable<ItemStack> components) {
	int memory = 0;
	for (ItemStack component : components) {
	if (Driver.driverFor(component) instanceof li.cil.oc.api.driver.item.Memory) {
	li.cil.oc.api.driver.item.Memory memdrv = (li.cil.oc.api.driver.item.Memory) Driver.driverFor(component);
	memory += memdrv.amount(component) * 1024;
	}
	}
	return Math.min(Math.max(memory, 0), Settings.get().maxTotalRam());
	}

	@Override
	public boolean recomputeMemory(Iterable<ItemStack> components) {
	int memory = calculateMemory(components);
	if (vm != null) // OpenComputers, why are you calling this before initialize?
	((SymonMachine) vm.simulator.machine).getBank().resize(memory);
	return true;
	}

	@Override
	public boolean initialize() {
	// Set up new VM here
	console = new ConsoleDriver(machine);
	vm = new SymonVM();
	vm.simulator.console = console;
	((SymonMachine) vm.simulator.machine).getBank().init(calculateMemory(machine.host().internalComponents()));
	initialized = true;
	return true;
	}

	@Override
	public void close() {
	vm = null;
	}

	@Override
	public ExecutionResult runThreaded(boolean isSynchronizedReturn) {
	try {
	if (!isSynchronizedReturn) {
	// Since our machine is a memory mapped one, parse signals here
	// TODO: Signal device
	Signal signal = null;
	while (true) {
	signal = machine.popSignal();
	if (signal != null) {
	if (signal.name().equals("key_down")) {
	int character = (int) (double) (Double) signal.args()[1]; // castception
	if (character != 0) // Not a character
	console.pushChar(character);
	} else if (signal.name().equals("clipboard")) {
	char[] paste = ((String) signal.args()[1]).toCharArray();
	for (char character : paste)
	console.pushChar(character);
	}
	((SymonMachine) vm.simulator.machine).getSigDev().queue(signal.name(), signal.args());
	} else
	break;
	}
	}
	vm.run();
	console.flush();

	return new ExecutionResult.Sleep(0);
	} catch (Throwable t) {
	t.printStackTrace();
	return new ExecutionResult.Error(t.toString());
	}
	}

	@Override
	public void runSynchronized() {
	try {
	vm.run();
	console.flush();
	} catch (Exception e) {
	// TODO Auto-generated catch block
	e.printStackTrace();
	}
	}

	@Override
	public void onSignal() {
	}

	@Override
	public void onConnect() {
	try {
	PacketSender.sendSound(machine.host().world(), machine.host().xPosition(), machine.host().yPosition(), machine.host().zPosition(), ".");
	} catch (Throwable e) {
	}
	}

	// TODO: Needs more things
	@Override
	public void load(NBTTagCompound nbt) {
	// Restore Machine

	// Restore Acia
	if (nbt.hasKey("acia")) {
	Acia mACIA = vm.simulator.machine.getAcia();
	NBTTagCompound aciaTag = nbt.getCompoundTag("acia");
	mACIA.setBaudRate(aciaTag.getInteger("baudRate"));
	}

	// Restore Cpu
	if (nbt.hasKey("cpu")) {
	Cpu mCPU = vm.simulator.machine.getCpu();
	NBTTagCompound cpuTag = nbt.getCompoundTag("cpu");
	mCPU.setAccumulator(cpuTag.getInteger("rA"));
	mCPU.setProcessorStatus(cpuTag.getInteger("rP"));
	mCPU.setProgramCounter(cpuTag.getInteger("rPC"));
	mCPU.setStackPointer(cpuTag.getInteger("rSP"));
	mCPU.setXRegister(cpuTag.getInteger("rX"));
	mCPU.setYRegister(cpuTag.getInteger("rY"));
	}

	// Restore Ram
	if (nbt.hasKey("ram")) {
	Memory mRAM = vm.simulator.machine.getRam();
	NBTTagCompound ramTag = nbt.getCompoundTag("ram");
	int[] mem = ramTag.getIntArray("mem");
	System.arraycopy(mem, 0, mRAM.getDmaAccess(), 0, mem.length);
	}

	// Restore Rom
	if (nbt.hasKey("rom")) {
	Memory mROM = vm.simulator.machine.getRom();
	NBTTagCompound romTag = nbt.getCompoundTag("rom");
	int[] mem = romTag.getIntArray("mem");
	System.arraycopy(mem, 0, mROM.getDmaAccess(), 0, mem.length);
	}

	// Restore Banked Ram
	if (nbt.hasKey("bank")) {
	Bank mBANK = ((SymonMachine) vm.simulator.machine).getBank();
	NBTTagCompound bankTag = nbt.getCompoundTag("bank");
	mBANK.setBank(bankTag.getInteger("bank"));
	mBANK.setBankSize(bankTag.getInteger("bankSize"));
	mBANK.setMemsize(bankTag.getInteger("size"));
	int[] mem = bankTag.getIntArray("mem");
	ArrayList<Integer> almem = mBANK.getDmaAccess();
	almem.clear();
	for (int v : mem)
	almem.add(v);
	}

	this.console.load(nbt);
	}

	// TODO: Needs more things
	@Override
	public void save(NBTTagCompound nbt) {
	// Persist Machine

	// Persist Acia
	Acia mACIA = vm.simulator.machine.getAcia();
	if (mACIA != null) {
	NBTTagCompound aciaTag = new NBTTagCompound();
	aciaTag.setInteger("baudRate", mACIA.getBaudRate());
	nbt.setTag("acia", aciaTag);
	}

	// Persist Cpu
	Cpu mCPU = vm.simulator.machine.getCpu();
	if (mCPU != null) {
	NBTTagCompound cpuTag = new NBTTagCompound();
	cpuTag.setInteger("rA", mCPU.getAccumulator());
	cpuTag.setInteger("rP", mCPU.getProcessorStatus());
	cpuTag.setInteger("rPC", mCPU.getProgramCounter());
	cpuTag.setInteger("rSP", mCPU.getStackPointer());
	cpuTag.setInteger("rX", mCPU.getXRegister());
	cpuTag.setInteger("rY", mCPU.getYRegister());
	nbt.setTag("cpu", cpuTag);
	}

	// Persist Ram
	Memory mRAM = vm.simulator.machine.getRam();
	if (mRAM != null) {
	NBTTagCompound ramTag = new NBTTagCompound();
	int[] mem = mRAM.getDmaAccess();
	ramTag.setIntArray("mem", mem);
	nbt.setTag("ram", ramTag);
	}

	// Persist Rom
	Memory mROM = vm.simulator.machine.getRom();
	if (mROM != null) {
	NBTTagCompound romTag = new NBTTagCompound();
	int[] mem = mROM.getDmaAccess();
	romTag.setIntArray("mem", mem);
	nbt.setTag("rom", romTag);
	}

	// Persist Banked Ram
	Bank mBANK = ((SymonMachine) vm.simulator.machine).getBank();
	if (mBANK != null) {
	NBTTagCompound bankTag = new NBTTagCompound();
	bankTag.setInteger("bank", mBANK.getBank());
	bankTag.setInteger("bankSize", mBANK.getBankSize());
	bankTag.setInteger("size", mBANK.getMemsize());
	ArrayList<Integer> almem = mBANK.getDmaAccess();
	int mem[] = new int[almem.size()];
	int i = 0;
	for (int v : almem)
	mem[i++] = v;
	bankTag.setIntArray("mem", mem);
	nbt.setTag("bank", bankTag);
	}

	this.console.save(nbt);
	}
	}