public void CloseFile(VirtualMachine vm, Instruction i, List<Value> args)
{
try {
FileStream fs = files[args[0].Int32_Value];
fs.Close();
} catch (Exception e) {
vm.RaiseError(e.Message);
}
}
public Instruction Convert()
{
Instruction i = new Instruction();
i.Type = (OpCodeTypes)Enum.Parse(typeof(OpCodeTypes), OpCode);
i.Args = new List<Value>();
foreach (AsmValue av in Args) {
i.Args.Add(av.Convert());
}
return i;
}
public static Instruction From(OpCodeTypes typ, Value[] values)
{
Instruction i = new Instruction();
i.Type = typ;
i.Args = new List<Value>();
foreach (Value v in values) {
i.Args.Add(v);
}
return i;
}
public void OpenFileWrite(VirtualMachine vm, Instruction i, List<Value> args)
{
try {
FileStream fs = File.Open(args[0].String_Value, FileMode.OpenOrCreate);
files.Add(fs);
vm.Stack.Push(Value.New(ValueTypes.INT_32, (Int32)(files.Count() - 1)));
} catch (Exception e) {
vm.RaiseError(e.Message);
}
}
public void WriteToFile(VirtualMachine vm, Instruction i, List<Value> args)
{
byte[] toWrite = GetBytes(args[0].String_Value);
try {
FileStream fs = files[args[1].Int32_Value];
fs.Write(toWrite, 0, toWrite.Count());
} catch (Exception e) {
vm.RaiseError(e.Message);
}
vm.Stack.Push(args[1]);
}
/// <summary>
///
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void Get(VirtualMachine vm, Instruction i)
{
Value name = vm.Stack.Shift();
if (name.Type != ValueTypes.STRING || name.String_Value == null || name.String_Value == "") {
vm.RaiseError("Tried to access a bound value with a non-string name");
return;
}
Environment cEnv = vm.CurrentEnvironment;
while (cEnv != null) {
if (cEnv.Exists(name.String_Value)) {
vm.Stack.Push(cEnv.Get(name.String_Value));
return;
}
cEnv = cEnv.Parent;
}
vm.RaiseError("Could not find variable " + name.String_Value + " in any environment");
return;
}
internal static void FalseJumpLabel(VirtualMachine vm, Instruction i)
{
Value a = vm.Stack.Shift();
if (a.Type != ValueTypes.BOOLEAN) {
vm.RaiseError("Attempted a test jump condition on a non-boolean value");
return;
}
if (a.Boolean_Value == false) {
OpCodes.JumpLabel(vm, i);
return;
}
vm.ByteCode.ProgramCounter++;
return;
}
/// <summary>
///
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void CallPrimitive(VirtualMachine vm, Instruction i)
{
Value pName = vm.Stack.Shift();
if (pName.Type != ValueTypes.STRING) {
vm.RaiseError("Tried to call a primitive with a non-string name");
return;
}
Action<VirtualMachine, Instruction, List<Value>> prim = null;
if (vm.Primitives.ContainsKey(pName.String_Value) == false) {
vm.RaiseError("Tried to call empty primitive " + pName.String_Value);
return;
}
prim = vm.Primitives[pName.String_Value];
Value[] arity = new Value[vm.PrimitivesArity[pName.String_Value].Count()];
vm.PrimitivesArity[pName.String_Value].CopyTo(arity);
// We are going to get arguments in reverse order
for (int x = arity.Count() - 1; x >= 0; x--) {
Value v = vm.Stack.Shift();
if (arity[x].Type != ValueTypes.ANY_TYPE && (arity[x].Type != v.Type)) {
vm.RaiseError("Argument arity error for primitive " + pName.String_Value + ": expected type " + arity[x].Type + ", saw " + v.Type);
return;
}
arity[x] = v;
}
prim(vm, i, new List<Value>(arity));
return;
}
public void GetRandom(VirtualMachine vm, Instruction i, List<Value> args)
{
Value v = Value.New(ValueTypes.INT_32);
v.Int32_Value = rand.Next(args[0].Int32_Value, args[1].Int32_Value);
vm.Stack.Push(v);
}
public void ConsoleReadLine(VirtualMachine vm, Instruction i, List<Value> args)
{
String s = Console.ReadLine();
Value v = Value.New(ValueTypes.STRING, s);
vm.Stack.Push(v);
}
internal static void TestGreaterThanEquals(VirtualMachine vm, Instruction i)
{
Value b = vm.Stack.Shift();
Value a = vm.Stack.Shift();
if (a.IsNumeric() == false || b.IsNumeric() == false) {
vm.RaiseError("Attempted to compare non-comparable type " + a.Type);
return;
}
Value v = new Value();
switch (a.Type) {
case ValueTypes.INT_16:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int16_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int16_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int16_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int16_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int16_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Int16_Value >= (long)b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.Int16_Value >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Int16_Value >= b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Int16_Value >= b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.INT_32:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int32_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int32_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int32_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int32_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int32_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Int32_Value >= (long)b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.Int32_Value >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Int32_Value >= b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Int32_Value >= b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.INT_64:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int64_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int64_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int64_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int64_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int64_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
if (b.UInt64_Value <= Int64.MaxValue) {
var val6 = a.Int64_Value >= Convert.ToInt64(b.UInt64_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
} else {
vm.RaiseError("Overflow error");
}
return;
case ValueTypes.DECIMAL:
var val7 = a.Int64_Value >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Int64_Value >= b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Int64_Value >= b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_16:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.UInt16_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.UInt16_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.UInt16_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.UInt16_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.UInt16_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.UInt16_Value >= b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.UInt16_Value >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.UInt16_Value >= b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.UInt16_Value >= b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_32:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.UInt32_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.UInt32_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.UInt32_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.UInt32_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.UInt32_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.UInt32_Value >= b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.UInt32_Value >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.UInt32_Value >= b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.UInt32_Value >= b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_64:
switch (b.Type) {
case ValueTypes.INT_16:
vm.RaiseError("Incommensurate value error: Int16 to UInt64");
return;
case ValueTypes.INT_32:
vm.RaiseError("Incommensurate value error: Int32 to UInt64");
return;
case ValueTypes.INT_64:
vm.RaiseError("Incommensurate value error: Int64 to UInt64");
return;
case ValueTypes.UINT_16:
var val1 = a.UInt64_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val2 = a.UInt64_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val3 = a.UInt64_Value >= b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val4 = a.UInt64_Value >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val5 = a.UInt64_Value >= Convert.ToDecimal(b.Double_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val6 = a.UInt64_Value >= Convert.ToDecimal(b.Float_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.DECIMAL:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Decimal_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Decimal_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Decimal_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Decimal_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Decimal_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Decimal_Value >= b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.Decimal_Value >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Decimal_Value >= Convert.ToDecimal(b.Double_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Decimal_Value >= Convert.ToDecimal(b.Float_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.FLOAT:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Float_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Float_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Float_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Float_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Float_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Float_Value >= b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = Convert.ToDecimal(a.Float_Value) >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = Convert.ToDouble(a.Float_Value) >= b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Float_Value >= b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.DOUBLE:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Double_Value >= b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Double_Value >= b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Double_Value >= b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Double_Value >= b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Double_Value >= b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Double_Value >= b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = Convert.ToDecimal(a.Double_Value) >= b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Double_Value >= b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Double_Value >= b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
}
}
/// <summary>
///
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void Copy(VirtualMachine vm, Instruction i)
{
Value prot = vm.Stack.Shift();
if (prot.Type != ValueTypes.OBJECT) {
vm.RaiseError("Tried to copy a non-object reference");
return;
}
Prototype p = prot.ObjectReference_Value.GetObject();
Value v = vm.CurrentEnvironment.AddObject(p);
vm.Stack.Push(v);
}
/// <summary>
///
/// </summary>
/// <param name="vm"></param>
internal static void Clone(VirtualMachine vm, Instruction i)
{
Value prot = vm.Stack.Shift();
if (prot.Type != ValueTypes.OBJECT) {
vm.RaiseError("Tried to clone a non-object reference");
return;
}
Prototype p = new Prototype();
p.Parent = prot.ObjectReference_Value.Home;
p.ParentIndex = prot.ObjectReference_Value.Index;
Value v = vm.CurrentEnvironment.AddObject(p);
vm.Stack.Push(v);
}
/// <summary>
/// Pushes the current UTC time in ticks onto the stack.
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void ClockUtcTicks(VirtualMachine vm, Instruction i)
{
Value v = Value.New(ValueTypes.UINT_64, DateTime.UtcNow.Ticks);
vm.Stack.Push(v);
}
internal static void CheckTypeNumeracy(VirtualMachine vm, Instruction i)
{
Value a = vm.Stack.Shift();
Value b = vm.Stack.Shift();
vm.Stack.Push(Value.New(ValueTypes.BOOLEAN, (a.IsNumeric() && b.IsNumeric())));
}
/// <summary>
/// Will return true if the types are the same, or if either type is ANY_TYPE.
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void CheckTypeEquality(VirtualMachine vm, Instruction i)
{
Value a = vm.Stack.Shift();
Value b = vm.Stack.Shift();
vm.Stack.Push(Value.New(ValueTypes.BOOLEAN, (a.Type == b.Type || a.Type == ValueTypes.ANY_TYPE || b.Type == ValueTypes.ANY_TYPE)));
}
/// <summary>
/// When TAIL_CALL is invoked, the VM inspects the top CodeBlock in the FunctionCallList,
/// pops the argument off the local stack, clears the local stack, clears local arguments,
/// pushes the arguments back onto the stack, and then moves the VM PC to the top of the
/// current CodeBlock. This allows for stack-free(ish) recursion.
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void CallTailCall(VirtualMachine vm, Instruction i)
{
if (vm.FunctionCallList.Count() < 1) {
vm.RaiseError("Attempt to invoke tail call outside of a code block.");
return;
}
CodeBlock cb = vm.FunctionCallList.Last();
List<Value> argStack = new List<Value>();
for (int aInc = cb.ArgumentsArity.Count() - 1; aInc >= 0; aInc--) {
Value v = cb.ArgumentsArity[aInc];
Value arg = vm.Stack.Shift();
if (v.Type != ValueTypes.ANY_TYPE && arg.Type != v.Type) {
vm.RaiseError("Argument arity error: expected type " + arg.Type + ", saw " + v.Type);
return;
}
argStack.Add(arg);
}
// Clear out the current environment so we can reuse it.
vm.CurrentEnvironment.Stack.Clear();
vm.CurrentEnvironment.Variables.Clear();
vm.CurrentEnvironment.Memory = 0;
vm.CurrentEnvironment.Prototypes.Clear();
vm.CurrentEnvironment.Objects.Clear();
foreach (Value v in argStack) {
vm.Stack.Push(v);
}
vm.ByteCode.ProgramCounter = cb.StartProgramCounter;
}
internal static void GetGlobal(VirtualMachine vm, Instruction i)
{
Value name = vm.Stack.Shift();
if (name.Type != ValueTypes.STRING || name.String_Value == null || name.String_Value == "") {
vm.RaiseError("Tried to access a global bound value with a non-string name");
return;
}
if (vm.GlobalsExists(name.String_Value) == false) {
vm.RaiseError("Tried to access non-existent global bound value name " + name.String_Value);
return;
}
vm.Stack.Push(vm.GetGlobal(name.String_Value));
return;
}
/// <summary>
/// Looks for a variable bound to name 'name' in the current environment and returns it.
/// name (end) | value (end)
/// </summary>
/// <param name="vm"></param>
/// <returns></returns>
internal static void GetLocal(VirtualMachine vm, Instruction i)
{
Value name = vm.Stack.Shift();
if (name.Type != ValueTypes.STRING || name.String_Value == null || name.String_Value == "") {
vm.RaiseError("Tried to access a bound value with a non-string name");
return;
}
if (vm.CurrentEnvironment.Exists(name.String_Value) == false) {
vm.RaiseError("Tried to access non-existent value name " + name.String_Value);
return;
}
Value val = vm.CurrentEnvironment.Get(name.String_Value);
vm.Stack.Push(val);
}
/// <summary>
/// Create an object and return a reference.
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void CreatePrototype(VirtualMachine vm, Instruction i)
{
Prototype p = new Prototype();
p.Parent = null;
p.ParentIndex = -1;
Value v = vm.CurrentEnvironment.AddObject(p);
vm.Stack.Push(v);
}
/// <summary>
///
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void ArraySet(VirtualMachine vm, Instruction i)
{
Value vIndex = vm.Stack.Shift();
Value vArray = vm.Stack.Shift();
Value vValue = vm.Stack.Shift();
if (vArray.Type != ValueTypes.ARRAY && vArray.Type != ValueTypes.STRING) {
vm.RaiseError("Tried to index set a non-array and non-string type " + vArray.Type);
return;
}
if (vIndex.IsNumeric() == false || vIndex.Type == ValueTypes.FLOAT || vIndex.Type == ValueTypes.DOUBLE || vIndex.Type == ValueTypes.DECIMAL) {
vm.RaiseError("Tried to index gsetet an array or string with a non-integer type " + vIndex.Type);
return;
}
Int32 index = Convert.ToInt32(vIndex.Get());
if (vArray.Type == ValueTypes.ARRAY) {
if (index >= vArray.Array_Value.Count()) {
vm.RaiseError("Tried to set index " + index + " on an array of max index " + (vArray.Array_Value.Count() - 1));
return;
}
vArray.Array_Value[index] = vValue;
} else if (vArray.Type == ValueTypes.STRING) {
if (index > vArray.String_Value.Count()) {
vm.RaiseError("Tried to set index " + index + " on a string of max index " + (vArray.Array_Value.Count() - 1));
return;
}
String tmpStr = vArray.String_Value.Substring(0, index);
tmpStr = tmpStr + vValue.String_Value[0];
tmpStr = tmpStr + vArray.String_Value.Substring(index + 1);
vArray.String_Value = tmpStr;
}
vm.Stack.Push(vArray);
return;
}
internal static void Debug(VirtualMachine vm, Instruction i)
{
String reason = "";
if (i.Args.Count() > 0) {
object o = i.Args[0].Get();
reason = o.ToString();
}
vm.RaiseDebug(reason);
}
public void ConsoleWriteLine(VirtualMachine vm, Instruction i, List<Value> args)
{
Console.WriteLine(args[0].Get().ToString());
}
/// <summary>
///
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void DeletePrototypeProperty(VirtualMachine vm, Instruction i)
{
Value propName = vm.Stack.Shift();
Value refc = vm.Stack.Shift();
if (propName.Type != ValueTypes.STRING || propName.String_Value == null || propName.String_Value == "") {
vm.RaiseError("Tried to delete a property without a string value");
}
if (refc.Type != ValueTypes.OBJECT) {
vm.RaiseError("Tried to delete a property on something other than an object reference.");
}
ObjectReference reference = refc.ObjectReference_Value;
Prototype p = reference.Home.Prototypes[reference.Home.Objects[reference.Index]];
while (p != null) {
if (p.ContainsKey(propName.String_Value)) {
p.Remove(propName.String_Value);
} else {
if (p.Parent == null) {
p = null;
} else {
p = p.Parent.Prototypes[p.Parent.Objects[p.ParentIndex]];
}
}
}
if (p == null) {
vm.RaiseError("Tried to remove nonexistent property " + propName.String_Value);
return;
}
vm.Stack.Push(refc);
}
internal static void Add(VirtualMachine vm, Instruction i)
{
Value b = vm.Stack.Shift();
Value a = vm.Stack.Shift();
if (a.IsNumeric() == false || b.IsNumeric() == false) {
vm.RaiseError("Tried to add one or more non-numeric values");
return;
}
Value v = new Value();
switch (a.Type) {
case ValueTypes.INT_16:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int16_Value + b.Int16_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int16_Value + b.Int32_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = (Int32)val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int16_Value + b.Int64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int16_Value + b.UInt16_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int16_Value + b.UInt32_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
if (b.UInt64_Value <= Int64.MaxValue) {
var val6 = a.Int16_Value + (long)b.UInt64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val6;
vm.Stack.Push(v);
} else {
vm.RaiseError("Overflow error");
}
return;
case ValueTypes.DECIMAL:
decimal val7 = a.Int16_Value + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
double val8 = a.Int16_Value + b.Double_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
float val9 = a.Int16_Value + b.Float_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.INT_32:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int32_Value + b.Int16_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = (Int32)val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int32_Value + b.Int32_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = (Int32)val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int32_Value + b.Int64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int32_Value + b.UInt16_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int32_Value + b.UInt16_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
if (b.UInt64_Value <= Int64.MaxValue) {
var val6 = a.Int32_Value + (long)b.UInt64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val6;
vm.Stack.Push(v);
} else {
vm.RaiseError("Overflow error");
}
return;
case ValueTypes.DECIMAL:
decimal val7 = a.Int32_Value + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
double val8 = a.Int32_Value + b.Double_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
float val9 = a.Int32_Value + b.Float_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.INT_64:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int64_Value + b.Int16_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = (Int32)val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int64_Value + b.Int32_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = (Int32)val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int64_Value + b.Int64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int64_Value + b.UInt16_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int64_Value + b.UInt32_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
if (b.UInt64_Value <= Int64.MaxValue) {
var val6 = a.Int64_Value + (long)b.UInt64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val6;
vm.Stack.Push(v);
} else {
vm.RaiseError("Overflow error");
}
return;
case ValueTypes.DECIMAL:
decimal val7 = a.Int64_Value + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
double val8 = a.Int64_Value + b.Double_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
float val9 = a.Int64_Value + b.Float_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_16:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.UInt16_Value + b.Int16_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.UInt16_Value + b.Int32_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.UInt16_Value + b.Int64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.UInt16_Value + b.UInt16_Value;
v.Type = ValueTypes.INT_32;
v.Int32_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.UInt16_Value + b.UInt32_Value;
v.Type = ValueTypes.UINT_32;
v.UInt32_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.UInt16_Value + b.UInt64_Value;
v.Type = ValueTypes.UINT_64;
v.UInt64_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
decimal val7 = a.UInt16_Value + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
double val8 = a.UInt16_Value + b.Double_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
float val9 = a.UInt16_Value + b.Float_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_32:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.UInt32_Value + b.Int16_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.UInt32_Value + b.Int32_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.UInt32_Value + b.Int64_Value;
v.Type = ValueTypes.INT_64;
v.Int64_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.UInt32_Value + b.UInt16_Value;
v.Type = ValueTypes.UINT_32;
v.UInt32_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.UInt32_Value + b.UInt32_Value;
v.Type = ValueTypes.UINT_32;
v.UInt32_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.UInt32_Value + b.UInt64_Value;
v.Type = ValueTypes.UINT_64;
v.UInt64_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
decimal val7 = a.UInt32_Value + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
double val8 = a.UInt32_Value + b.Double_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
float val9 = a.UInt32_Value + b.Float_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_64:
switch (b.Type) {
case ValueTypes.INT_16:
vm.RaiseError("Incommensurate value error: Int16 to UInt64");
return;
case ValueTypes.INT_32:
vm.RaiseError("Incommensurate value error: Int32 to UInt64");
return;
case ValueTypes.INT_64:
vm.RaiseError("Incommensurate value error: Int64 to UInt64");
return;
case ValueTypes.UINT_16:
var val1 = a.UInt64_Value + b.UInt16_Value;
v.Type = ValueTypes.UINT_64;
v.UInt64_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val2 = a.UInt64_Value + b.UInt32_Value;
v.Type = ValueTypes.UINT_64;
v.UInt64_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val3 = a.UInt64_Value + b.UInt64_Value;
v.Type = ValueTypes.UINT_64;
v.UInt64_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
decimal val4 = a.UInt64_Value + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
decimal val5 = a.UInt64_Value + Convert.ToDecimal(b.Double_Value);
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
decimal val6 = a.UInt64_Value + Convert.ToDecimal(b.Float_Value);
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val6;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.DECIMAL:
switch (b.Type) {
case ValueTypes.INT_16:
decimal val1 = a.Decimal_Value + b.Int16_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
decimal val2 = a.Decimal_Value + b.Int32_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
decimal val3 = a.Decimal_Value + b.Int64_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
decimal val4 = a.Decimal_Value + b.UInt16_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
decimal val5 = a.Decimal_Value + b.UInt32_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
decimal val6 = a.Decimal_Value + b.UInt64_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
decimal val7 = a.Decimal_Value + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
decimal val8 = a.Decimal_Value + Convert.ToDecimal(b.Double_Value);
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
decimal val9 = a.Decimal_Value + Convert.ToDecimal(b.Float_Value);
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.FLOAT:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Float_Value + b.Int16_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Float_Value + b.Int32_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Float_Value + b.Int64_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Float_Value + b.UInt16_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Float_Value + b.UInt32_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Float_Value + b.UInt64_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = Convert.ToDecimal(a.Float_Value) + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = Convert.ToDouble(a.Float_Value) + b.Double_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Float_Value + b.Float_Value;
v.Type = ValueTypes.FLOAT;
v.Float_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.DOUBLE:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Double_Value + b.Int16_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Double_Value + b.Int32_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Double_Value + b.Int64_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Double_Value + b.UInt16_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Double_Value + b.UInt32_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Double_Value + b.UInt64_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = Convert.ToDecimal(a.Double_Value) + b.Decimal_Value;
v.Type = ValueTypes.DECIMAL;
v.Decimal_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Double_Value + b.Double_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Double_Value + b.Float_Value;
v.Type = ValueTypes.DOUBLE;
v.Double_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
}
}
/// <summary>
///
/// (array) (index) (end) | (value) (end)
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void ArrayGet(VirtualMachine vm, Instruction i)
{
Value vIndex = vm.Stack.Shift();
Value vArray = vm.Stack.Shift();
if (vArray.Type != ValueTypes.ARRAY && vArray.Type != ValueTypes.STRING) {
vm.RaiseError("Tried to index get a non-array and non-string type " + vArray.Type);
return;
}
if(vIndex.IsNumeric() == false || vIndex.Type == ValueTypes.FLOAT || vIndex.Type == ValueTypes.DOUBLE || vIndex.Type == ValueTypes.DECIMAL){
vm.RaiseError("Tried to index get an array with a non-integer type " + vIndex.Type);
return;
}
Int32 index = Convert.ToInt32(vIndex.Get());
Value v = new Value();
if (vArray.Type == ValueTypes.ARRAY) {
if (index >= vArray.Array_Value.Count()) {
vm.RaiseError("Tried to get index " + index + " on an array of max index " + (vArray.Array_Value.Count() - 1));
}
v = vArray.Array_Value[index];
} else if (vArray.Type == ValueTypes.STRING) {
if (index >= vArray.String_Value.Count()) {
vm.RaiseError("Tried to get index " + index + " on a string of max index " + (vArray.Array_Value.Count() - 1));
}
v = Value.New(ValueTypes.STRING, vArray.String_Value[index]);
}
vm.Stack.Push(v);
return;
}
/// <summary>
///
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void Dupe(VirtualMachine vm, Instruction i)
{
Value v = vm.Stack.Peek();
vm.Stack.Push(v.Dupe());
}
/// <summary>
///
///
/// The difference
/// between RETURN_BLOCK and RETURN_CLOSURE *is* meaningful, as the former will attempt to return context
/// to parent scope and the latter will attempt to return context to saved scope. Mixing up the two will
/// cause memory corruption and probable execution failure.
///
/// Note that we push arguments for a call from 0...n (end), and recovered the same way, as we shift them and
/// move them to the new stack, where they will be removed in LIFO order.
/// </summary>
/// <param name="vm"></param>
/// <param name="i"></param>
internal static void CallFunction(VirtualMachine vm, Instruction i)
{
Value callable = vm.Stack.Shift();
if (callable.Type != ValueTypes.CODE_BLOCK) {
vm.RaiseError("Tried to call a non-callable value as a function");
return;
}
if (i.Type == OpCodeTypes.CALL_CLOSURE && callable.CodeBlock_Value.Closure == null) {
vm.RaiseError("Tried to call a non-closure block with lexical scope.");
return;
}
if ( (i.Type == OpCodeTypes.CALL_BLOCK || i.Type == OpCodeTypes.CALL_FUNCTION) && callable.CodeBlock_Value.Closure != null) {
vm.RaiseError("Tried to call a closure with dynamic scope.");
return;
}
// Create a new environment and shift arguments onto the stack
Environment env = null;
if (i.Type == OpCodeTypes.CALL_BLOCK) { // dynamically-scoped
env = vm.PushCurrentEnvironment();
} else if (i.Type == OpCodeTypes.CALL_FUNCTION) { // non-closure lexical scope (function)
env = vm.PushClosure();
} else if (i.Type == OpCodeTypes.CALL_CLOSURE) { // lexically-scoped (closure)
env = callable.CodeBlock_Value.Closure;
} else {
vm.RaiseError("Attempt to call block or closure with unknown opcode " + i.Type);
return;
}
for (int aInc = callable.CodeBlock_Value.ArgumentsArity.Count() - 1; aInc >= 0; aInc--) {
Value v = callable.CodeBlock_Value.ArgumentsArity[aInc];
Value arg = vm.Stack.Shift();
if (v.Type != ValueTypes.ANY_TYPE && arg.Type != v.Type) {
vm.RaiseError("Argument arity error: expected type " + arg.Type + ", saw " + v.Type);
return;
}
env.Stack.Push(arg);
}
// If we're operating in lexical scope, save the current environment so we can return
// back to it.
if (i.Type == OpCodeTypes.CALL_CLOSURE || i.Type == OpCodeTypes.CALL_FUNCTION) {
vm.ClosureStack.Add(vm.CurrentEnvironment);
}
// Finally, add the code block to the VM's function call list. We only use this to
// enable tail calls so we don't lose tex start locations and function arity
vm.FunctionCallList.Add(callable.CodeBlock_Value);
vm.CurrentEnvironment = env;
vm.ByteCode.ProgramCounter = callable.CodeBlock_Value.StartProgramCounter;
}
internal static void TestNotEquals(VirtualMachine vm, Instruction i)
{
Value b = vm.Stack.Shift();
Value a = vm.Stack.Shift();
if (a.IsNumeric() == false || b.IsNumeric() == false) {
if (a.Type != b.Type) {
vm.RaiseError("Tried to compare incommensurate values");
return;
}
Value testValue = new Value();
testValue.Type = ValueTypes.BOOLEAN;
if (a.Type == ValueTypes.BOOLEAN) {
testValue.Boolean_Value = Convert.ToBoolean(a.Get()) != Convert.ToBoolean(b.Get());
} else if (a.Type == ValueTypes.BYTE) {
testValue.Boolean_Value = Convert.ToByte(a.Get()) != Convert.ToByte(b.Get());
} else if (a.Type == ValueTypes.DATETIME) {
throw new NotImplementedException();
} else if (a.Type == ValueTypes.GUID) {
throw new NotImplementedException();
} else if (a.Type == ValueTypes.STRING) {
testValue.Boolean_Value = Convert.ToString(a.Get()) != Convert.ToString(b.Get());
} else if (a.Type == ValueTypes.OBJECT) {
ObjectReference av = a.ObjectReference_Value;
ObjectReference bv = b.ObjectReference_Value;
testValue.Boolean_Value = (av.Home != bv.Home || av.Index != bv.Index);
} else {
vm.RaiseError("Attempted to compare non-comparable type " + a.Type);
}
vm.Stack.Push(testValue);
return;
}
Value v = new Value();
switch (a.Type) {
case ValueTypes.INT_16:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int16_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int16_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int16_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int16_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int16_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Int16_Value != (long)b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.Int16_Value != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Int16_Value != b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Int16_Value != b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.INT_32:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int32_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int32_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int32_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int32_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int32_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Int32_Value != (long)b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.Int32_Value != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Int32_Value != b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Int32_Value != b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.INT_64:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Int64_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Int64_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Int64_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Int64_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Int64_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
if (b.UInt64_Value <= Int64.MaxValue) {
var val6 = a.Int64_Value != Convert.ToInt64(b.UInt64_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
} else {
vm.RaiseError("Overflow error");
}
return;
case ValueTypes.DECIMAL:
var val7 = a.Int64_Value != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Int64_Value != b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Int64_Value != b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_16:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.UInt16_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.UInt16_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.UInt16_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.UInt16_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.UInt16_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.UInt16_Value != b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.UInt16_Value != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.UInt16_Value != b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.UInt16_Value != b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_32:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.UInt32_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.UInt32_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.UInt32_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.UInt32_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.UInt32_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.UInt32_Value != b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.UInt32_Value != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.UInt32_Value != b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.UInt32_Value != b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.UINT_64:
switch (b.Type) {
case ValueTypes.INT_16:
vm.RaiseError("Incommensurate value error: Int16 to UInt64");
return;
case ValueTypes.INT_32:
vm.RaiseError("Incommensurate value error: Int32 to UInt64");
return;
case ValueTypes.INT_64:
vm.RaiseError("Incommensurate value error: Int64 to UInt64");
return;
case ValueTypes.UINT_16:
var val1 = a.UInt64_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val2 = a.UInt64_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val3 = a.UInt64_Value != b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val4 = a.UInt64_Value != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val5 = a.UInt64_Value != Convert.ToDecimal(b.Double_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val6 = a.UInt64_Value != Convert.ToDecimal(b.Float_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.DECIMAL:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Decimal_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Decimal_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Decimal_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Decimal_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Decimal_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Decimal_Value != b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = a.Decimal_Value != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Decimal_Value != Convert.ToDecimal(b.Double_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Decimal_Value != Convert.ToDecimal(b.Float_Value);
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.FLOAT:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Float_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Float_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Float_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Float_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Float_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Float_Value != b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = Convert.ToDecimal(a.Float_Value) != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = Convert.ToDouble(a.Float_Value) != b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Float_Value != b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
case ValueTypes.DOUBLE:
switch (b.Type) {
case ValueTypes.INT_16:
var val1 = a.Double_Value != b.Int16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val1;
vm.Stack.Push(v);
return;
case ValueTypes.INT_32:
var val2 = a.Double_Value != b.Int32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val2;
vm.Stack.Push(v);
return;
case ValueTypes.INT_64:
var val3 = a.Double_Value != b.Int64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val3;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_16:
var val4 = a.Double_Value != b.UInt16_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val4;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_32:
var val5 = a.Double_Value != b.UInt32_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val5;
vm.Stack.Push(v);
return;
case ValueTypes.UINT_64:
var val6 = a.Double_Value != b.UInt64_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val6;
vm.Stack.Push(v);
return;
case ValueTypes.DECIMAL:
var val7 = Convert.ToDecimal(a.Double_Value) != b.Decimal_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val7;
vm.Stack.Push(v);
return;
case ValueTypes.DOUBLE:
var val8 = a.Double_Value != b.Double_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val8;
vm.Stack.Push(v);
return;
case ValueTypes.FLOAT:
var val9 = a.Double_Value != b.Float_Value;
v.Type = ValueTypes.BOOLEAN;
v.Boolean_Value = val9;
vm.Stack.Push(v);
return;
}
vm.RaiseError("Incommensurate value error");
break;
}
}
internal static void EndBlock(VirtualMachine vm, Instruction i)
{
CodeBlock call = vm.CodeBlockBeingDefined;
if (i.Type == OpCodeTypes.END_CLOSURE && call.Closure == null) {
vm.RaiseError("Tried to end a closure with a null environment.");
return;
} else if ( (i.Type == OpCodeTypes.END_BLOCK || i.Type == OpCodeTypes.END_FUNCTION) && call.Closure != null) {
vm.RaiseError("Tried to end a code block or function with a closure.");
return;
}
call.EndProgramCounter = vm.ByteCode.ProgramCounter-1;
Value block = Value.New(ValueTypes.CODE_BLOCK, call);
vm.CodeBlockBeingDefined = null;
vm.Stack.Push(block);
}
